Semileptonic decays of Bc meson to S-wave charmonium states in the perturbative QCD approach

Abstract

Inspired by the recent measurement of the ratio of Bc branching fractions to J/ π+ and J/ μ+μ final states at the LHCb detector, we study the semileptonic decays of Bc meson to the S-wave ground and radially excited 2S and 3S charmonium states with the perturbative QCD approach. After evaluating the form factors for the transitions Bc→ P,V, where P and V denote pseudoscalar and vector S-wave charmonia, respectively, we calculate the branching ratios for all these semileptonic decays. The theoretical uncertainty of hadronic input parameters are reduced by utilizing the light-cone wave function for Bc meson. It is found that the predicted branching ratios range from 10-6 up to 10-2 and could be measured by the future LHCb experiment. Our prediction for the ratio of branching fractions BR(Bc+→ J/ π+) BR(Bc+→ J/ μ+μ) is in good agreement with the data. For Bc→ V l l decays, the relative contributions of the longitudinal and transverse polarization are discussed in different momentum transfer squared regions. These predictions will be tested on the ongoing and forthcoming experiments.