Possible molecular states of D*K* ( D*K*) and the new exotic states X0(2900) and X1(2900) (Tacs0(2900)0 and Tacs0(2900)++)

Abstract

Two iso-singlet hadron states X0(2900) and X1(2900) with J=0 and 1 respectively, discovered by the LHCb collaboration in 2020, were identified as molecular bound states of D*K*. Recently two structures Tacs0(2900)0 and Tacs0(2900)++ have been observed at the hadron spectra, one would suspect if they also are molecular states of D* and K*. As long as they were of the molecular structures of D*K*, the hadron states must be in an iso-vector, namely Tacs0(2900)0 and Tacs0(2900)++ were I3=-1, 1 components of the iso-vector. If it is the case, the corresponding Tacs0(2900)+ of (I=1,I3=0) and T'acs0(2900)+ of I=0,I3=0 so far evade experimental observation, but should be found by the future experiments. To testify this ansatz, in this paper we study the possible molecular structures of D*K* and D*K* within the Bethe-Salpeter (B-S) framework. With reasonable input parameters it is found that D*K* iso-scalar systems with JP=0+ and 1+ are solutions. The result supports the ansatz of X0(2900) (X1(2900)) being molecular states of D*K*. Whereas for the system of D*K* with I=1 the corresponding B-S equation has no solution. Thus we can draw a clear conclusion that Tacs0(2900)0 and Tacs0(2900)++ should not be bound states of D* and K*. The two structures observed by the LHCb collaboration may be caused by dynamics, such as the well-recognized triangle anomalies or other mechanisms.