Charmed-strange tetraquarks and their decays in a potential quark model

Abstract

In the framework of a nonrelativistic potential quark model, we investigate the mass spectrum of the 1S-wave charmed-strange tetraquark states of cnsn and csnn (n=u or d) systems. The tetraquark system is solved by a correlated Gaussian method. With the same parameters fixed by the meson spectra, we obtained the mass spectra for the 1S-wave tetraquark states. Furthermore, based on the predicted tetraquark spectra we estimate their rearrangement decays in a quark-exchange model. We find that the rearrangement decays of the tetraquarks may be mainly driven by the spin-spin interactions. The resonances X0(2900)0 and Tacs0(2900)++/0 reported from LHCb may be assigned to be the lowest 1S-wave tetraquark states Tcs0f(2818) and Tacs0(2828) classified in the quark model, respectively. It also allows us to extract the couplings for the initial tetraquark states to their nearby S-wave interaction channels. We find that some of these couplings turn out to be sizeable. Following the picture of the wavefunction renormalization for the near-threshold strong S-wave interactions, the sizeable coupling strengths can be regarded as an indication of their dynamic origins as candidates for hadronic molecules. Furthermore, our predictions suggest that signals for the 1S-wave charmed-strange tetraquark states can also be searched in the other channels, such as D0K+, D+K+, D*+K-, D*+K+, D*0K+, D0K*0, Ds+0, etc.

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