Abstract
We proposed a model which can explain the neutrino phenomenology, dark matter and anomalous magnetic moment (g−2) in a common framework. The inverted seasaw (ISS)(2,3) mechanism has been incorporated, in which we get an extra sterile state and this state act as a viable dark matter candidate. The right handed neutrino mass is obtained in TeV scale, which is accessible at LHC. The anomaly free U(1)Le−Lμ gauge symmetry is introduced to explain the anomalous magnetic moment of electron and muon because it provides a natural origin of (g−2) in a very minimal setup. The corresponding MeV scale gauge boson successfully explain the anomalous magnetic moment of electron and muon (g−2)e,μ, simultaneously. Thus obtained neutrino phenomenology and relic abundance of dark matter are compatible with experimental results.
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