Study of the dilepton electromagnetic decays of cJ(1P)

Abstract

In this paper, the dilepton electromagnetic decays cJ(1P) J/ e+e- and cJ(1P) J μ+μ-, where cJ denotes c0, c1 and c2, are calculated systematically in the improved Bethe-Salpeter method. The numerical results of decay widths and the invariant mass distributions of the final lepton pairs are given. The comparison is made with the recently measured experimental data of BESIII. It is shown that for the cases including e+e-, the gauge invariance is decisive and should be considered carefully. For the processes of cJ(1P) J/ e+e-, the branching fraction are: B[c0(1P) J/ e+e-]=1.06+0.16-0.18 × 10-4, B[c1(1P) J/ e+e-]=2.88+0.50-0.53 × 10-3, and B[c2(1P) J/ e+e-]=1.74+0.22-0.21 × 10-3. The calculated branching fractions of cJ(1P) J/ μ+μ- channels are: B[c0(1P) J/ μ+μ-]=3.80+0.59-0.64 × 10-6, B[c1(1P) J/ μ+μ-]=2.04+0.36-0.38 × 10-4, and B[c2(1P) J/ μ+μ-]=1.66+0.19-0.19 × 10-4.