Semi-leptonic decays B D(*)(1S,2S) ν within the covariant light-front approach

Abstract

We present a systematic analysis of the semi-leptonic decays B(s) D(s)(1S,2S)ν and B(s) D*(s)(1S,2S)ν with =e,μ,τ within the covariant light-front quark model (CLFQM). Using the form factors of the transitions B(s) D(s)(1S,2S) and B(s) D*(s)(1S,2S), we calculate the branching ratios of the relevant semi-leptonic decays and find that Br(B(s) D(s)ν) and Br(B(s) D*(s)ν) with =e,μ are agree well with the data, while Br(B(s) D(s)τντ) and Br(B(s) D*(s)τντ) are systematically smaller than the experimental measurements. This naturally gives rise to the so-called R(D) and R(D*) anomalies. Our predictions R(D)=0.2610.013 and R(D*)=0.2280.026 show 3.1σ and 2.1σ deviations from the current experimental world averages compiled by the Heavy Flavor Averaging Group (HFLAV), respectively, yet only deviate by 0.16σ and 1.5σ from the latest LHCb measurements. For the decays B(s) D(s)(2S)ν and B(s) D*(s)(2S)ν, their branching ratios lie in the range 10-410-3, which are much larger than the results from the Bethe Salpeter (BS) equation , but agree with the relativistic quark model (RQM) calculations. Furthermore, we also calculate the forward-backward asymmetries AFB and longitudinal polarization fractions fL for the corresponding decays. Our predictions are consistent with most other theoretical results and experimental data