Quark-lepton correlations in gauge anomaly free abelian extension of the Standard Model

Abstract

We study b s 1+ 2- transitions, both for the lepton flavour conserving 1=2 and violating case 1 ≠ 2, in a minimal extension of the Standard Model proposed in [1]. In this framework, the Standard Model (SM) gauge group is enlarged by a new U(1) component. The fermion U(1) charges are assigned in a generation-dependent way, and involve three rational parameters ε1,2,3 summing to zero by the condition of cancellation of the gauge anomalies. Each εi is common to all fermions in a generation, which produces correlations among quark and lepton observables. The new neutral gauge boson Z has flavour violating couplings to quarks and leptons. For SM allowed processes, small deviations with respect to the SM predictions are found: this is a consequence of a feature of the model where quark and lepton sectors preclude each other large deviations from SM. Lepton flavour violating processes are allowed at tree-level. The experimental upper bounds for the rates of the processes τ- μ- μ+ μ-, μ- e- γ, μ- e- e+ e- and the μ- e- conversion in nuclei play a hierarchical role in constraining the branching fractions of lepton flavour violating B and Bs decays.