Phenomenology of a minimal extension of the standard model with a family-dependent gauge symmetry

Abstract

We consider a gauge symmetry extension of the standard model given by SU(3)C SU(2)L U(1)X U(1)N Z2 with minimal particle content, where X and N are family dependent but determining the hypercharge as Y=X+N, while Z2 is an exact discrete symmetry. In our scenario, X (while N is followed by X-Y) and Z2 charge assignments are inspired by the number of fermion families and the stability of dark matter, as observed, respectively. We examine the mass spectra of fermions, scalars, and gauge bosons, as well as their interactions, in presence of a kinetic mixing term between U(1)X,N gauge fields. We discuss in detail the phenomenology of the new gauge boson and the right-handed neutrino dark matter stabilized by Z2 conservation. We obtain parameter spaces simultaneously satisfying the recent CDF W-boson mass, electroweak precision measurements, particle colliders, as well as dark matter observables, if the kinetic mixing parameter is not necessarily small.