QCD corrections to the Bc to charmonia semi-leptonic decays

Abstract

We present a detailed analysis on the Bc meson semi-leptonic decays, Bc ηc (J/) , up to next-to-leading order (NLO) QCD correction. We adopt the principle of maximum conformality (PMC) to set the renormalization scales for those decays. After applying the PMC scale setting, we determine the optimal renormalization scale for the Bcηc(J/) transition form factors (TFFs). Because of the same \β0\-terms, the optimal PMC scales at the NLO level are the same for all those TFFs, i.e. μr PMC ≈ 0.8 GeV. We adopt a strong coupling model from the massive perturbation theory (MPT) to achieve a reliable pQCD estimation in this low energy region. Furthermore, we adopt a monopole form as an extrapolation for the Bcηc(J/) TFFs to all their allowable q2 region. Then, we predict Bc ηc (=e,μ) =(71.53+11.27-8.90)× 10-15 GeV, Bc ηc τ =(27.14+5.93-4.33)× 10-15 GeV, Bc J/ (=e,μ) =(106.31+18.59-14.01) × 10-15 GeV, Bc J/ τ =(28.25+6.02-4.35)× 10-15 GeV, where the uncertainties are squared averages of all the mentioned error sources. We show that the present prediction of the production cross section times branching ratio for B+c J/ + v relative to that for B+ J/ K+, i.e. (J/ + ), is in a better agreement with CDF measurements than the previous predictions.