Bs,d0 J/ μ+μ- Decays in QCD Factorization

Abstract

Motivated by the first LHCb searches for the rare Bs,d0 J/μ+μ- decays, we perform a detailed study of these processes within the QCD factorization formalism. Since the transverse size of the J/ meson is small in the heavy quark mass limit, this formalism is generally expected to hold for these decays. We include both the leading- and next-to-leading-order QCD corrections to the hard-scattering kernels, which are convoluted with the light-cone distribution amplitudes (LCDAs) of the initial- and final-state hadrons. It is numerically found that, depending on the model parameters for the leading-twist B-meson LCDA, the maximum branching ratios of Bs0 J/μ+μ- and Bd0 J/μ+μ-, integrated over the dimuon invariant mass squared q2 from 1\,GeV2 to (mBs,d-mJ/)2, can reach up to 2.21×10-9 and 7.69×10-11 at the leading order in αs, respectively. After incorporating the non-factorizable one-loop vertex corrections, these branching ratios are further reduced by about one order of magnitude, with B(Bs0 J/μ+μ-)|q2 ≥ 1\,GeV2=2.88×10-10 and B(Bd0 J/μ+μ-)|q2 ≥ 1\,GeV2=1.07×10-11. In addition, we have presented the dimuon invariant mass distributions of the individual and total helicity amplitudes squared, as well as the differential and integrated longitudinal polarization fractions of the J/ meson, which could be probed by the future LHCb and Belle II experiments with more accumulated data.

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