Inverse seesaw and (g-2) anomalies in B-L extended two Higgs doublet model

Abstract

We propose a gauged U(1)B-L extended two Higgs doublet model to explain both neutrino mass and lepton anomalous magnetic moments (g-2). Neutrino mass is generated via an inverse seesaw mechanism by introducing singlet fermions. Especially, we update the result of muon g-2 in light of the very recent report by E989 experiment at Fermilab, indicating aμ FNAL=116592040(54)× 10-11. Combining BNL result, we have the following deviation from the standard model prediction aμ=(2.51 5.9)×10-10 at 4.2 σ. Thanks to an appropriate assignment for U(1)B-L× Z2 symmetry and larger (20)β that is favoured by type-X model, we realize natural hierarchies among neutral fermions. The lepton anomalous magnetic moments can be induced at the one loop level by introducing an iso-spin singlet singly-charged boson. This charged scalar plays a significant role in evading chiral suppression of these phenomenologies. We show sizable lepton (g-2) can be obtained after satisfying all the flavour constraints, such as μ eγ and flavour conserving leptonic Z boson decays.