Analysis of DD* and D(*)cc(*) molecule by one boson exchange model based on Heavy quark symmetry

Abstract

Numerous exotic hadrons with heavy quarks have been reported in the experiments. In such states, symmetries of heavy quarks are considered to play a significant role. In particular, the superflavor symmetry, or also called the heavy quark anti-diquark symmetry is one of the interesting symmetries, which links a quark Q to an anti-diquark QQ having the same color representation as Q. In this paper, we study a Dcc molecular state as a superflavor partner of the doubly charm tetraquark Tcc reported by LHCb recently. Tcc locating slightly below the DD* threshold is a candidate of the hadronic molecule. Thus by replacing the singly charm meson D(*) with the doubly charm baryon cc(*), superflavor symmetry predicts the existence of the D(*)cc(*) bound state. We employ the one boson exchange model respecting with the heavy quark spin symmetry where the parameter is obtained to reproduce the Tcc binding energy. We apply this model with superflavor symmetry to the D(*)cc(*) molecule and predict a bound state with I(JP) = 0(12-). If the pentaquark state corresponding to D(*) cc(*) molecular state is observed in future experiments as predicted in this work, it is more likely that Tcc is a DD* molecular state.

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