The hidden-charm strong decays of the Zc states

Abstract

Inspired by BESIII's measurement of the decay Zc(3900)→ ηc, we calculate the branching fraction ratio between the ηc and π J/ decay modes for the charged states Zc(3900), Zc(4020) and Zc(4430) using a quark interchange model. Our results show that (i) the ratio RZc(3900)=B(Zc(3900)→ ηc)B(Zc(3900)→ πJ/) is 1.3 and 1.6 in the molecular and tetraquark scenarios respectively, which is roughly consistent with the experimental data Rexp=2.20.9. (ii) The ratios [Zc(3900)→ ηc][Zc(4020)→ ηc] and [Zc(3900)→ π J/][Zc(4020)→ π J/] are about 12.5 and 24.2, respectively in the molecular scenario. In contrast, these ratios are about 1.2 in the tetraquark scenario. The non-observation of the Zc(4020) signal in the π J/ decay mode strongly indicates that Zc(3900) and Zc(4020) are molecule-like signals which arise from the D(*) D(*) hadronic interactions.