Implications of new evidence for lepton-universality violation in b s+- decays

Abstract

Motivated by renewed evidence for new physics in b s transitions in the form of LHCb's new measurements of theoretically clean lepton-universality ratios and the purely leptonic Bsμ+μ- decay, we quantify the combined level of discrepancy with the Standard Model and fit values of short-distance Wilson coefficients. A combination of the clean observables RK, RK*, and Bs μμ alone results in a discrepancy with the Standard Model at 4.0σ, up from 3.5σ in 2017. One-parameter scenarios with purely left-handed or with purely axial coupling to muons fit the data well and result in a 5 σ pull from the Standard Model. In a two-parameter fit of %C9 and C10, new-physics contributions with both vector and axial-vector couplings to muons the allowed region is much more restricted than in 2017, principally due to the much more precise result on Bs μ+ μ-, which probes the axial coupling to muons.Including angular observables data restricts the allowed region further.A by-product of our analysis is an updated average of BR(Bs μ+ μ-) = (2.8 0.3) × 10-9.