$R_{D^{(\ast)}}$, $R_{K^{(\ast)}}$ 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 $R_{D{(\ast)}}$ anomalies while the resolution to the $R_{K{(\ast)}}$ 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 $R_{D{(\ast)}}$ and $R_{K{(\ast)}}$ anomalies as well as the neutrino mass. We first revisit the $R_{D{(\ast)}}$ anomalies and find that the current world-averaged results can be addressed at $2\sigma$ level without violating the bound from the branching ratio $\mathcal{B}(B_c-\rightarrow \tau- \bar{\nu})\leqslant 30\%$. 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 $R_{K{(\ast)}}$ anomalies, the same scenario can generate the required Wilson coefficients in the direction $ C_{9 \mu}{\rm NP}=-C_{10 \mu}{\rm NP}<0$, with $\mathcal{O}(1)$ Yukawa couplings for the muon and the top quark.
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