Study of Bc J/ (a1(1260), b1(1235), a2(1320), K2*(1430)) decay with a perturbative QCD approach

Abstract

Motivated by systematic observations of Bc decays at LHCb, we analyze Bc+ J/ (A, T) decays (where A denotes axial-vector mesons a1(1260)+, b1(1235)+, and T denotes tensor mesons a2(1320)+, K2*(1430)+) within the perturbative QCD (pQCD) factorization framework. The framework employs light-cone distribution amplitudes (LCDAs) to regulate nonperturbative dynamics, utilizing Sudakov suppression to control endpoint divergences. Our predictions indicate branching ratios of 10-3 10-2 for Bc+ J/ A and 10-5 10-4 for Bc+ J/ T decays, which seem to be in the reach of future experiments. We also provide predictions for the polarization fractions of these decays. Based on quark helicity analysis, the longitudinal polarization amplitudes are expected to dominate the branching ratios.