Spectrum of [cq][sq] tetraquarks: Nature of D*s0(2317), Ds1(2460) and T*c s0(2900)

Abstract

Motivated by the recent observations of exotic open-charm tetraquark candidates \(Tacs0(2900)++\) and \(Tacs0(2900)0\), we systematically calculate the mass spectra of \([cq][sq]\) tetraquarks within a nonrelativistic constituent quark potential model. In the model, the tetraquark states are treated as diquark-antidiquark bound systems with an interior interaction similar to the quark-antiquark interaction in conventional mesons. The well established states \(Ds0*(2317)\) with \(JP=0+\) and \(Ds1(2460)\) with \(JP=1+\) could be identified as the two ground states of the \([cq][sq]\) system. \(Tacs0(2900)0\) and \(Tacs0(2900)++\) could be naturally interpreted as radially excited \(0+\) tetraquark states with different interior components. Their large mass difference may result from their different interior structure instead of an isospin symmetry breaking. Whether \(Tacs0(2900)0\) and \(Tacs0(2900)++\) belong to an isospin triplet deserves further experimental investigation. In addition, there may be another \(0+\) \([cq][sq]\) tetraquark state with mass around 2450 MeV, which is composed of a cq diquark and a s q antidiquark both with spin-0. In the energy region 2640-2700 MeV, there may be a JP=2+ \([cq][sq]\) tetraquark state composed of the cq diquark and the s q antidiquark both with spin-1.