Extra gauge bosons and lepton flavor universality violation in and B meson decays

Abstract

Lepton flavor universality can be tested through the ratio of semileptonic B meson decays and leptonic meson decays, with (nS) (n=1,2,3). For the charged-current transitions b cττ, discrepancies between the experiment and the Standard Model (SM) have been observed in recent years by different flavor facilities such as BABAR, Belle, and LHCb. While for the neutral-current transitions b b ττ, the BABAR experiment reported recently a new measurement of leptonic decay ratio R(3S) = BR((3S) τ+τ-)/ BR((3S) μ+μ-), showing an agreement with the SM at the 1.8 σ level. In light of this new BABAR result and regarding the connection between new physics (NP) interpretations to the charged-current b c τ τ anomalies and neutral-current b b τ τ processes, in this study, we revisit the NP consequences of this measurement within a simplified model with extra massive gauge bosons that coupled predominantly to left-handed leptons of the third-generation. We show that the BABAR measurement of R(3S) cannot easily be accommodated (within its experimental 1σ range) together with the other b cττ data, hinting toward a new anomalous observable.