Identifying DsJ*(2860) as a four resonance states through strong decay analysis

Abstract

Experimentally observed excited strange charmed mesons Ds0*(2317), Ds1(2460), Ds1(2536), Ds2*(2573), Ds1*(2700), Ds1*(2860), Ds3*(2860), and DsJ(3040) are identified tentatively according to their spin, parity, and masses. Using the heavy quark effective theory in the leading order approximation, we study their strong decays to ground state charmed mesons plus light pseudoscalar mesons. The branching ratios are classified, (Ds0*(2317), Ds1(2460)) as (13P0, 1P1) and (Ds1(2536), Ds2*(2573)) as (1P1, 13P2), in heavy quark doublets. The Ds1*(2700) as 23S1 and its spin partner, 21S0 is still missing in the experiment. Its strong decay behavior is predicted. The assignment of DsJ*(2860) as four resonance states Ds1*(2860), Ds2*(2860), Ds2*(2860), Ds3*(2860) is favored, where for Ds3*(2860) the mass should be expected to higher than 2.86 GeV. The DsJ(3040) is more likely to be 2P1 state. We construct the Regge trajectories of experimentally observed strange charmed mesons in (M2, J) and (M2, nr) planes, which estimate the masses of 13D3, 13F4, 1D2, 11F3, 1D2, 1F3, 33S1, and 3P1 states with fixing the slopes and intercepts of the Regge lines. Moreover, the strong decay rates and the branching ratios of these higher excited states are also examined, which distinguished the dominant decay channels for these higher excited states. Our results could provide some important clues in LHCb, BESIII, KEK-B, and the forthcoming Belle II and P ANDA experiments.