An A4 realization of inverse seesaw: neutrino masses, θ13 and leptonic non-unitarity

Abstract

We provide an A4 based flavor symmetric scenario to accommodate the inverse seesaw mechanism for explaining light neutrino masses and mixing. We find that the lepton mixing, in particular the tri-bimaximal mixing pattern and its deviation through nonzero θ13, is originated solely from the flavor structure of the lepton number violating contribution of the neutral lepton mass matrix. Here we discuss in detail how a nonzero value of θ13 is correlated with the other parameters in the framework and its impact on the Dirac CP phase δ. We also analyze the non-unitarity effects on lepton mixing matrix and its implication in terms of the lepton flavor violating decays, etc..