Phenomenology of U(1)F extension of inert-doublet model with exotic scalars and leptons

Abstract

In this work we will extend the inert-doublet model (IDM) by adding a new U(1)F gauge symmetry to it, under which, a Z2 even scalar (φ2) and Z2 odd right handed component of two exotic charged leptons (FeR,\ Fμ R), are charged. We also add one Z2 even real scalar (φ1) and one complex scalar (φ), three neutral Majorana right handed fermions (N1,\ N2,\ N3), two left handed components of the exotic charged leptons (FeL,\ Fμ L) as well as Fτ are all odd under the Z2, all of which are not charged under the U(1)F. With these new particles added to the IDM, we have a model which can give two scalar DM candidates, together they can explain the present DM relic density as well as the muon (g-2) anomaly simultaneously. Also in this model the neutrino masses are generated at one loop level. One of the most peculiar feature of this model is that non-travail solution to the axial gauge anomaly free conditions lead to the prediction of a stable very heavy partner to the electron (Fe), whose present collider limit (14 TeV LHC) on its mass should be around mFe ≥ few TeV.