Interplay of the charged Higgs effects in RD(), b s +- and W-mass

Abstract

Current data on semileptonic charged- and neutral-current B decays show deviations from the predictions of the Standard Model. It is well known that a charged Higgs boson, belonging to the two-Higgs doublet model without Z2 symmetry, offers one of the simplest solution to the charged-current B decays. We show that this solution naturally induces a negative shift of O(1) in the Wilson coefficient (C9) of operator ( sLγμ bL)( γμ ), potentially resolving the tension in neutral-current B decays as well. Interestingly, the lepton universality ratios in b s +- decays, in tune with the recent LHCb result, remain SM-like. Precision constraints from neutral B and K meson mixing, decays Bc τ, B Xsγ, and leptonic decays of τ and Z can be satisfied. Furthermore, a positive shift in W-boson mass, nicely in agreement with the CDF measurement, is also possible, requiring the neutral scalars to be heavier than the charged Higgs but within the sub-TeV region.

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