Correlating lepton flavour violating b s and leptonic decay modes in a minimal abelian extension of the Standard Model

Abstract

We consider an abelian extension of the Standard Model (SM) comprising a new gauge group U(1), with the neutral gauge boson Z having flavour violating couplings to quarks and leptons. The fermion content is the same as in SM except for the addition of three right-handed neutrinos. The model, proposed in Aebischer:2019blw, describes the couplings of Z to fermions in terms of three rational parameters ε1,2,3 that sum to zero imposing the cancellation of the gauge anomalies. Each εi is common to all fermions in a generation, a feature producing correlations among quark and lepton observables. We focus on b s 1- 2+ transitions for the lepton flavour conserving 1=2 and lepton flavour violating case 1 ≠ 2. Small deviations with respect to the SM predictions are found in the first case, which reflects a feature of the model where quark and lepton sectors prevent each other to manifest large discrepancies with respect to SM. We investigate the correlations between rare B and Bs decays and the leptonic processes τ- μ- μ+ μ-, μ- e- γ, μ- e- e+ e- and the μ- e- conversion in nuclei. We show that the current experimental upper bounds on these four channels play an increasingly important role in constraining the branching fractions of lepton flavour violating B and Bs decays. While the present bound on τ- μ- μ+ μ- does not impose significant restrictions, the other three modes set progressively more stringent limits, an important information for the planned new experimental facilities.