Light-front quark model analysis of the exclusive rare Bc D(s)(+-,_) decays

Abstract

We investigate the exclusive rare Bc D(s)_ and B D(s)+- (=e,μ,τ) decays within the standard model and the light-front quark model constrained by the variational principle for the QCD motivated effective Hamiltonian. The form factors f(q2) and fT(q2) are obtained from the analytic continuation method in the q+=0 frame. While the form factors f+(q2) and fT(q2) are free from the zero-mode, the form factor f-(q2) is not free from the zero-mode in the q+=0 frame. We discuss the covariance(i.e. frame-independence) of our model calculation and quantify the zero-mode contributions to f-(q2) for Bc D(s) decays. The branching ratios and the longitudinal lepton polarization asymmetries are calculated with and without the long-distance contributions. Our numerical results for the non-resonant branching ratios for Bc D(Ds)Σ_ and Bc D(Ds)+- are in the order of 10-8 (10-7) and 10-9 (10-8), respectively. The averaged values of the lepton polarization asymmetries obtained from the linear (harmonic oscillator) potential parameters are found to be -0.99 (-0.99) for Bc Dμ+μ- and -0.16 (-0.15) for Bc Dτ+τ-, and -0.98 (-0.98) for Bc Dsμ+μ- and -0.14 (-0.12) for Bc Dsτ+τ-, respectively.