b c anomalies in light of extended scalar sectors

Abstract

Considering the recent experimental results on exclusive semileptonic B meson decays showing sizable departure from their Standard Model prediction of lepton flavor universality and keeping ongoing and proposed non-standard Higgs searches in mind, we explore the charged current flavor observables (RD(*), RJ/), among other b c transitions, in the presence of a relevant scalar current effective new physics operator. We use Bc lifetime and predicted bounds on the branching fraction of Bc τ decay as constraints. We show the allowed parameter space in terms of the real and imaginary parts of the corresponding Wilson coefficients for such interactions. Under the light of obtained results, we study the prospect of two benchmark models, rendering the Wilson coefficients real (Georgi-Machacek (GM)) and complex (Leptoquark (LQ)) respectively. We show that constraints from b c on GM parameters are consistent with other flavor constraints on the model, if we drop the ~results. Including those disfavors the model by more than 3σ. On the other hand, one benchmark LQ scenario, which gives rise to a single scalar current effective interaction, is still allowed within 68\% confidence level, albeit with a shrunk parameter space.