Fermiophobic Z' model for simultaneously explaining the muon anomalies RK(*) and (g-2)μ

Abstract

We discuss a simple renormalisable, gauge invariant model with a fermiophobic Z' boson: it has no couplings to the three Standard Model (SM) chiral families, but does couple to a fourth vector-like (VL) family. The SM Higgs couples to the fourth VL lepton, leading to an enhanced contribution to the muon anomalous magnetic moment (g-2)μ. The latter contribution requires a non-vanishing coupling of Z' to right-handed muons, which arises within this model due to mixing effects between the SM and VL fermions, along with Z' couplings to the second generation SM lepton doublet and third generation SM quark doublet. This model can simultaneously account for the measured B-decay ratios RK(*) and (g-2)μ. We identify the parameter space where this explanation is consistent with existing experimental constraints coming from Bs-Bs mixing, neutrino trident production and collider searches. We also check that the SM Higgs coupling to the fourth VL lepton does not produce a dangerous contribution to the Higgs diphoton decay.