Right-handed neutrinos and the CDF II anomaly

Abstract

We point out that right-handed neutrinos can resolve the tension between the latest CDF II measurement of the W-boson mass, MW, and the standard model. Integrating out the new states yields a single d=6 operator, which induces a deviation from unitarity in the PMNS matrix. This alters the extraction of the Fermi constant from muon decay and increases the prediction for MW, in line with the CDF II result. Non-unitarity of the PMNS matrix would also affect beta, meson, and tau decays. We find that the CDF II value for MW can be explained without conflicting with lepton flavour universality constraints or the invisible decay width of the Z. However, the so-called Cabibbo angle anomaly is worsened if right-handed neutrinos are the origin of the d=6 operator. The situation improves if the operator coefficient is left unconstrained, implying additional sources of new physics, but a common explanation of both anomalies is in tension with universality bounds.