Strong decays of newly observed charm-strange meson states based on a relativistic model

Abstract

The mass spectra of charm-strange mesons including ground, radial and orbital excitations have been calculated within a relativistic Dirac framework. The predicted masses of the ground state 1S and the first orbital excited state 1P exhibits excellent agreement with values reported by the PDG. Utilizing these mass predictions and an effective Lagrangian approach based on heavy quark and chiral symmetries, we have computed the OZI allowed two body strong decay widths of higher excited state candidates of charm-strange sector. The resulting partial widths and branching ratios enable the assignment of spin-parity quantum numbers to several newly observed charm-strange states. In particular, we identify DsJ(2700) as the 23S1, Ds0(2590) as the 21S0, DsJ(2860) as the 13D3, Ds1(2860) as the 13D1, and DsJ(3040) as the 21P1 states. The effective coupling constants gT, gX, gY, gS and gH extracted from present analysis. Furthermore, the D*K decay channel emerges as the most promising mode for the experimental search of the missing 13D2 and 11D2 states, while the 23P0 state is more likely to be observed through the DK channel.