Tri-bimaximal Neutrino Mixing from A(4) and θ13 θC

Abstract

It is a common believe that, if the Tri-bimaximal mixing (TBM) pattern is explained by vacuum alignment in an A(4) model, only a very small reactor angle, say θ13 λ2C being λC θC the Cabibbo angle, can be accommodated. This statement is based on the assumption that all the flavon fields acquire VEVs at a very similar scale and the departures from exact TBM arise at the same perturbation level. From the experimental point of view, however, a relatively large value θ13 λC is not yet excluded by present data. In this paper, we propose a Seesaw A(4) model in which the previous assumption can naturally be evaded. The aim is to describe a θ13 λC without conflicting with the TBM prediction for θ12 which is rather close to the observed value (at λ2C level). In our model the deviation of the atmospherical angle from maximal is subject to the sum-rule: 2 θ23 ≈ 1/2 + 2/2 δ θ13 which is a next-to-leading order prediction of our model.