B Anomalies in Two Higgs Doublet Model with Flavor Symmetry

Abstract

The long-standing flavor anomalies in b s + - and b c persist. In this work, we explore a specific flavor-gauged two-Higgs doublet model (FG2HDM) extended by a scalar singlet, with an imposed U(1) flavor symmetry. Compared to the Standard Model (SM), four additional scalars and one neutral gauge boson Z' are added to the particle spectrum. The special Yukawa coupling matrices, due to the U(1) symmetry, lead to flavor-changing neutral Higgs (FCNH) interactions uniquely occurring in the down-type quark sector, while the new gauge boson Z' induces flavor-changing neutral current (FCNC) interactions in the down-type quark sector as well. The two distinct types of anomalies can be accommodated simultaneously in such a model. Incorporating scalar and vector contributions to b s + - and Bs0-Bs0 mixing, along with charged Higgs contributions to b c , we investigate the parameter space in FG2HDM and find substantial room in the solution space. Specifically, in the SM-like model setup, the data suggests that mZ' < 450\, GeV, β < 28, and g'/mZ' > 3.5 × 10-4 \, GeV-1, while there are fewer constraints on heavy scalars, which can be further tested by a combination of other observables.