Neutrino Mixing Phenomenology: A4 Discrete Flavor Symmetry with Type-I Seesaw Mechanism

Abstract

We study a neutrino mass model with A4 discrete flavor symmetry using a type-I seesaw mechanism. The inclusion of extra flavons in our model leads to the deviations from exact tribimaximal mixing pattern resulting in a nonzero θ13 consistent with the recent experimental results and a sum rule for light neutrino masses is also obtained. In this framework, a connection is established among the neutrino mixing angles: reactor mixing angle(θ13), solar mixing angle(θ12) and atmospheric mixing angle (θ23). This model also allows us a prediction of Dirac CP-phase and Jarlskog parameter J. The octant of the atmospheric mixing angle θ23 occupies the lower octant. Our model prefers normal hierarchy (NH) than inverted hierarchy (IH). We use the parameter space of our model of neutrino masses to study the neutrinoless double beta decay parameter mee. Keywords: Discrete flavor symmetry, Type-I seesaw mechanism, Tribimaximal mixing, Dirac CP-phase, Jarlskog parameter, Neutrinoless double beta decay