The Effects of Binary Reference Stars on JWST NIRCam Coronagraphy
Abstract: Direct imaging campaigns executed with James Webb Space Telescope (JWST) will enable the study of the faintest observable exoplanets yet. To assist observers in the JWST proposal process, we present an in-depth exploration of the effects of moderate contrast binary (visual and physical) systems on JWST NIRCam coronagraphic Reference Differential Imaging (RDI) methods. All work in this paper is based on simulation data generated using the Python package PanCAKE, in addition to a variety of custom scripts which we have made publicly available on GitHub. Presenting both contrast curves and more involved 'heatmaps' of sensitivity loss, we present quantifiable measurements for how a binary companion will impact contrast both totally and locally, as a function of magnitude, separation, and position angle. Observers can use results in this work to estimate the impact of a known binary, and in some cases will find that PSF subtraction can still be reliably performed. We have found several scenarios where JWST NIRCam coronagraphic RDI PSF subtraction can be viably performed using a binary reference and make several suggestions. The brightest binary companions analyzed, with a relative brightness of 1e-3, resulted in the worst local sensitivity loss of 3.02 units of magnitude. The faintest binary companions looked at, 1e-6 relative brightness, have almost no effect on local sensitivity. Changing position angle impacts sensitivity loss by 0.5 to 0.3 depending on companion flux. Binary companion separation considerations should be on a case-by-case science goal basis. This work also discusses the trade space for these suggestions in detail.
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