Possible D(*) cc(*) and cc(*)cc(*) molecules as superflavor partners of Tcc
Abstract
The doubly charmed tetraquark Tcc has been reported by the LHCb experiment in 2022, and a lot of theoretical studies has been conducted. The small binding energy measured from D + D0 threshold indicates that Tcc is a DD molecule. On the other hand, the superflavor symmetry, which relates heavy antiquarks to heavy diquarks, provides a useful framework for predicting the existence of partner exotic hadrons associated with Tcc. By replacing D(*) with cc(*) within this symmetry, D(*) cc(*) and cc(*)cc(*) are expected to form partner structures of Tcc. In this paper, we investigate bound and resonant states of D(*) cc(*) and cc(*)cc(*) based on the one boson exchange potential, where π, , ω and σ are considered as bosons. The cutoff parameter and the coupling constants for D(*) cc(*) and cc(*)cc(*) are taken to be the same as those for Tcc due to superflavor symmetry. We also discuss the σ coupling constant, which is uncertain, dependence of these mass spectra. A lot of bound and resonant states with some quantum numbers are obtained for each σ coupling constant, but these mass spectra depend on the σ coupling constant significantly.
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