Radiative decays of the neutral Zc(3900) and Zc(4020)

Abstract

We study the radiative decays Zc(3900)/Zc(4020) γ cJ(γcJ) (J=0, 1, 2), with the assumption that the Zc(3900) and Zc(4020) couple strongly to D D* +c.c and D* D* channel, respectively. By considering the contributions of intermediate charmed mesons triangle loops within an effective Lagrangian approach, it is shown that the calculated partial widths of Zc(3900) γ cJ are about a few hundreds keVs, while the obtained partial widths Zc(4020) γ cJ are about tens of keVs. The predicted partial widths of Zc(3900)γc0,1 are less than 1 keV, which mainly due to the very small phase space. For Zc(4020)γc0,2, the calculated partial widths are usually smaller than 1 keV. For the Zc(4020)γc1 process, the obtained partial widths can reach up to the order of 10 keV. Furthermore, the dependence of these ratios between different decay modes on the masses of Zc(3900) or Zc(4020) are also investigated, which may be a good quantity for the experiments. It is hoped that these calculations here could be tested by future experiments.