Charmonium states in a coupled-channel model

Abstract

We systematically investigate the mass spectrum and two-body open-charm strong decays of charmonium states in a coupled-channel model where the 3P0 quark-antiquark pair creation mechanism is employed. The results of masses, mass shifts, proportions of the cc component, and open-charm decay widths are provided. The S-D wave mixing angles and di-electric decay widths for vector mesons are also presented. Based on our results, we find that the (3770), (4040), (4160), (4360), and (4415) can be assigned as the 13D1-, 33S1-, 23D1-, 43S1-, and 33D1-dominated charmonium states, respectively. The 3(3842) is a good candidate of the 3(1D) charmonium state. The calculated mass and strong decay width of c1(2P) with significant continuum contribution (57\%) favor the charmonium interpretation for the mysterious c1(3872). When considering the large uncertainty in the observed decay width, the possibility to assign the c0(3860) as the c0(2P) charmonium state cannot be ruled out. One may describe well the properties of c2(3930) with the c2(2P) charmonium. The predictions on properties of other cc states can be tested by future experiments.