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Analysis of $T_{cc}$ and $T_{bb}$ based on the hadronic molecular model and their spin multiplets (2312.08663v1)

Published 14 Dec 2023 in hep-ph and nucl-th

Abstract: ${T_{cc}(cc\bar{u}\bar{d})}{+}$ has been reported by the LHCb experiment in 2022. The analysis using the Breit-Wigner parametrization found the small binding energy, $0.273$ MeV, which is measured from the threshold of $D{*+}D{0}$. In this paper, we consider $T_{cc}$ as a $DD*$ hadronic molecule as a deuteron-like state. The one boson exchange model is employed as for the heavy meson interactions, where we determine the cut-off parameter $\Lambda$ to reproduce the reported binding energy of $T_{cc}$ with $I(JP)=0(1+)$. We discuss the properties of the bound state, and also search for $T_{cc}$ with the quantum numbers other than $0(1{+})$. Futhermore, we analyze $T_{bb}$ as a bottom counterpart of $T_{cc}$, which involves two bottom quarks, and obtain several bound states. Finally we consider the light-cloud basis for wave functions of the doubly heavy tetraquarks in the heavy quark limit. Using the basis, we find the spin multiplets of their bound states, indicating the spin structures of diquarks in $T_{cc}$ and $T_{bb}$ with the finite quark masses.

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References (27)
  1. M. Gell-Mann, A Schematic Model of Baryons and Mesons, Phys. Lett. 8, 214 (1964).
  2. G. Zweig, An SU(3) model for strong interaction symmetry and its breaking. Version 1,  (1964a).
  3. G. Zweig, An SU(3) model for strong interaction symmetry and its breaking. Version 2, in DEVELOPMENTS IN THE QUARK THEORY OF HADRONS. VOL. 1. 1964 - 1978, edited by D. B. Lichtenberg and S. P. Rosen (1964) pp. 22–101.
  4. S. K. Choi et al. (Belle), Observation of a narrow charmonium-like state in exclusive B±→K±⁢π+⁢π−⁢J/ψ→superscript𝐵plus-or-minussuperscript𝐾plus-or-minussuperscript𝜋superscript𝜋𝐽𝜓B^{\pm}\to K^{\pm}\pi^{+}\pi^{-}J/\psiitalic_B start_POSTSUPERSCRIPT ± end_POSTSUPERSCRIPT → italic_K start_POSTSUPERSCRIPT ± end_POSTSUPERSCRIPT italic_π start_POSTSUPERSCRIPT + end_POSTSUPERSCRIPT italic_π start_POSTSUPERSCRIPT - end_POSTSUPERSCRIPT italic_J / italic_ψ decays, Phys. Rev. Lett. 91, 262001 (2003), arXiv:hep-ex/0309032 .
  5. R. Aaij et al. (LHCb), Observation of J/ψ⁢p𝐽𝜓𝑝J/\psi pitalic_J / italic_ψ italic_p Resonances Consistent with Pentaquark States in Λb0→J/ψ⁢K−⁢p→superscriptsubscriptΛ𝑏0𝐽𝜓superscript𝐾𝑝\Lambda_{b}^{0}\to J/\psi K^{-}proman_Λ start_POSTSUBSCRIPT italic_b end_POSTSUBSCRIPT start_POSTSUPERSCRIPT 0 end_POSTSUPERSCRIPT → italic_J / italic_ψ italic_K start_POSTSUPERSCRIPT - end_POSTSUPERSCRIPT italic_p Decays, Phys. Rev. Lett. 115, 072001 (2015), arXiv:1507.03414 [hep-ex] .
  6. R. Aaij et al. (LHCb), Observation of structure in the J/ψ𝐽𝜓J/\psiitalic_J / italic_ψ -pair mass spectrum, Sci. Bull. 65, 1983 (2020), arXiv:2006.16957 [hep-ex] .
  7. R. Aaij et al. (LHCb), Observation of an exotic narrow doubly charmed tetraquark, Nature Phys. 18, 751 (2022a), arXiv:2109.01038 [hep-ex] .
  8. R. Aaij et al. (LHCb), Study of the doubly charmed tetraquark Tc⁢c+superscriptsubscript𝑇𝑐𝑐T_{cc}^{+}italic_T start_POSTSUBSCRIPT italic_c italic_c end_POSTSUBSCRIPT start_POSTSUPERSCRIPT + end_POSTSUPERSCRIPT, Nature Commun. 13, 3351 (2022b), arXiv:2109.01056 [hep-ex] .
  9. J. P. Ader, J. M. Richard, and P. Taxil, DO NARROW HEAVY MULTI - QUARK STATES EXIST?, Phys. Rev. D 25, 2370 (1982).
  10. J. l. Ballot and J. M. Richard, FOUR QUARK STATES IN ADDITIVE POTENTIALS, Phys. Lett. B 123, 449 (1983).
  11. J.-B. Cheng, Z.-Y. Lin, and S.-L. Zhu, Double-charm tetraquark under the complex scaling method, Phys. Rev. D 106, 016012 (2022), arXiv:2205.13354 [hep-ph] .
  12. F.-L. Wang and X. Liu, Investigating new type of doubly charmed molecular tetraquarks composed of charmed mesons in the H and T doublets, Phys. Rev. D 104, 094030 (2021), arXiv:2108.09925 [hep-ph] .
  13. F.-L. Wang, R. Chen, and X. Liu, A new group of doubly charmed molecule with T-doublet charmed meson pair, Phys. Lett. B 835, 137502 (2022), arXiv:2111.00208 [hep-ph] .
  14. H. Ren, F. Wu, and R. Zhu, Hadronic Molecule Interpretation of Tcc+ and Its Beauty Partners, Adv. High Energy Phys. 2022, 9103031 (2022), arXiv:2109.02531 [hep-ph] .
  15. T. Asanuma, Y. Yamaguchi, and M. Harada, Analysis of D⁢D*𝐷superscript𝐷DD^{*}italic_D italic_D start_POSTSUPERSCRIPT * end_POSTSUPERSCRIPT and D¯(*)⁢Ξc⁢c(*)superscript¯𝐷superscriptsubscriptΞ𝑐𝑐\bar{D}^{(*)}\Xi_{cc}^{(*)}over¯ start_ARG italic_D end_ARG start_POSTSUPERSCRIPT ( * ) end_POSTSUPERSCRIPT roman_Ξ start_POSTSUBSCRIPT italic_c italic_c end_POSTSUBSCRIPT start_POSTSUPERSCRIPT ( * ) end_POSTSUPERSCRIPT molecule by one boson exchange model based on Heavy quark symmetry,   (2023), arXiv:2311.04695 [hep-ph] .
  16. X. Yan, B. Zhong, and R. Zhu, Doubly charmed tetraquarks in a diquark–antidiquark model, Int. J. Mod. Phys. A 33, 1850096 (2018), arXiv:1804.06761 [hep-ph] .
  17. E. J. Eichten and C. Quigg, Heavy-quark symmetry implies stable heavy tetraquark mesons Qi⁢Qj⁢q¯k⁢q¯lsubscript𝑄𝑖subscript𝑄𝑗subscript¯𝑞𝑘subscript¯𝑞𝑙Q_{i}Q_{j}\bar{q}_{k}\bar{q}_{l}italic_Q start_POSTSUBSCRIPT italic_i end_POSTSUBSCRIPT italic_Q start_POSTSUBSCRIPT italic_j end_POSTSUBSCRIPT over¯ start_ARG italic_q end_ARG start_POSTSUBSCRIPT italic_k end_POSTSUBSCRIPT over¯ start_ARG italic_q end_ARG start_POSTSUBSCRIPT italic_l end_POSTSUBSCRIPT, Phys. Rev. Lett. 119, 202002 (2017), arXiv:1707.09575 [hep-ph] .
  18. O. Andreev, Q⁢Q⁢q¯⁢q¯𝑄𝑄¯𝑞¯𝑞QQ\bar{q}\bar{q}italic_Q italic_Q over¯ start_ARG italic_q end_ARG over¯ start_ARG italic_q end_ARG potential in string models, Phys. Rev. D 105, 086025 (2022), arXiv:2111.14418 [hep-ph] .
  19. F. S. Navarra, M. Nielsen, and S. H. Lee, QCD sum rules study of QQ - anti-u anti-d mesons, Phys. Lett. B 649, 166 (2007), arXiv:hep-ph/0703071 .
  20. S. S. Agaev, K. Azizi, and H. Sundu, Newly observed exotic doubly charmed meson Tcc+, Nucl. Phys. B 975, 115650 (2022), arXiv:2108.00188 [hep-ph] .
  21. Q. Xin and Z.-G. Wang, Analysis of the doubly-charmed tetraquark molecular states with the QCD sum rules, Eur. Phys. J. A 58, 110 (2022), arXiv:2108.12597 [hep-ph] .
  22. Q. Xin, Z.-G. Wang, and X.-S. Yang, Analysis of the X(3960) and related tetraquark molecular states via the QCD sum rules, AAPPS Bull. 32, 37 (2022), arXiv:2207.09910 [hep-ph] .
  23. M. Padmanath and S. Prelovsek, Signature of a Doubly Charm Tetraquark Pole in DD* Scattering on the Lattice, Phys. Rev. Lett. 129, 032002 (2022), arXiv:2202.10110 [hep-lat] .
  24. M. Neubert, Heavy quark symmetry, Phys. Rept. 245, 259 (1994), arXiv:hep-ph/9306320 .
  25. B. Grinstein, An Introduction to heavy mesons, in 6th Mexican School of Particles and Fields (1995) pp. 122–184, arXiv:hep-ph/9508227 .
  26. S. Ahmed et al. (CLEO), First measurement of Gamma(D*+), Phys. Rev. Lett. 87, 251801 (2001), arXiv:hep-ex/0108013 .
  27. R. L. Workman and Others (Particle Data Group), Review of Particle Physics, PTEP 2022, 083C01 (2022).
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