RD(), RK() and neutrino mass in the 2HDM-III with right-handed neutrinos

Abstract

Given that the two-Higgs-doublet model of type III (2HDM-III) has the potential to address the RD() anomalies while the resolution to the RK() deficits requires new degrees of freedom within this framework, we consider in this paper a unified scenario where the low-scale type-I seesaw mechanism is embedded into the 2HDM-III, so as to accommodate the RD() and RK() anomalies as well as the neutrino mass. We first revisit the RD() anomalies and find that the current world-averaged results can be addressed at 2σ level without violating the bound from the branching ratio B(Bc-→ τ- )≤slant 30\%. The scenario predicts two sub-eV neutrino masses based on a decoupled heavy Majorana neutrino and two nearly degenerate Majorana neutrinos with mass around the electroweak scale. For the RK() anomalies, the same scenario can generate the required Wilson coefficients in the direction C9 μ NP=-C10 μ NP<0, with O(1) Yukawa couplings for the muon and the top quark.