Bc J/ helicity form factors and the Bc+ J/+(P, V, + ) decays

Abstract

In this paper, we calculate the Bc J/ helicity form factors (HFFs) up to twist-4 accuracy by using the light-cone sum rules (LCSR) approach. After extrapolating those HFFs to the physically allowable q2 region, we investigate the B+c-meson two-body decays and semi-leptonic decays Bc+ J/+(P, V, + ) with P/V stands for light pseudoscalar/vector meson, respectively. The branching fractions can be derived by using the CKM matrix element and the Bc lifetime from the Particle Data Group, and we obtain B(Bc+ J/ π+)=(0.136+0.002-0.002)\%, B(Bc+ J/ K+)=(0.010+0.000-0.000)\%, B(Bc+ J/ +) =(0.768+0.029-0.033)\%, B(Bc+ J/ K +)=(0.043+0.001-0.001)\%, B(Bc+ J/ μ+μ)=(2.802+0.526-0.675)\% and B(Bc+ J/ τ+τ)=(0.559+0.131-0.170)\%. We then obtain Rπ+/μ+μ = 0.048+ 0.009-0.012 and RK+ / π+ = 0.075+0.005-0.005, which agree with the LHCb measured value within 1σ-error. We also obtain RJ/=0.199+ 0.060-0.077, which like other theoretical predictions, is consistent with the LHCb measured value within 2σ-error. Those imply that the HFFs under the LCSR approach are also applicable to the B+c meson two-body decays and semi-leptonic decays Bc+ J/+(P, V, + ), and the HFFs obtained by using LCSR in a new way implies that there may be new physics in the Bc J/ + semi-leptonic decays.