Investigating the role of new physics in b c τ τ transitions

Abstract

In recent times, the charged-current mediated semileptonic b c τ τ processes have attracted a lot of attention after the observation of lepton non-universality ratios, RD(*), RJ/ and the measurements on D* and τ longitudinal polarization fractions in B D* τ τ processes. We present a model-independent analysis of B D(*) τ τ, Bs Ds(*) τ τ, Bc+ (ηc, J/) τ+ τ, b c τ τ and B D** τ τ (where D** = \D*0, D1*, D1, D2*\ are the four lightest excited charm mesons) processes involving b c τ quark level transitions by considering the most general effective Lagrangian in the presence of new physics. We perform a global fit to various set of new coefficients, including the measurements on RD(*), RJ/ and the upper limit on Br(Bc+ τ+ τ). We then show the implications of constrained new couplings on the branching fractions, lepton non-universality ratios and various angular observables of these decay modes in four different bins of q2.