Investigating new type of doubly-charmed molecular tetraquarks composed of the charmed meson in H-doublet and the charmed meson in T-doublet

Abstract

Stimulated by the newly reported doubly-charmed tetraquark state Tcc+ by LHCb, we carry out a systematic investigation of the S-wave interactions between the charmed meson (D,\,D*) in H-doublet and the charmed meson (D1,\,D2*) in T-doublet by adopting the one-boson-exchange model. Both the S-D wave mixing effect and the coupled channel effect are taken into account. By performing a quantitative calculation, we suggest that the S-wave D* D1 states with I(JP)=0(0-,\,1-) and the S-wave D*D2* state with I(JP)=0(1-) should be viewed as the most promising candidates of the doubly-charmed molecular tetraquark states, and the S-wave DD1 state with I(JP)=0(1-), the S-wave DD2* state with I(JP)=0(2-), and the S-wave D*D2* state with I(JP)=0(2-) are the possible doubly-charmed molecular tetraquark candidates. With the accumulation of experimental data at Run III and after High-Luminosity-LHC upgrade, these predicted doubly-charmed molecular tetraquark states can be accessible at LHCb in the near future.