Type II seesaw supersymmetric neutrino model for θ13≠0

Abstract

Using the type II seesaw approach and properties of discrete flavor symmetry group representations, we build a supersymmetric A4× A3\ neutrino model with θ13≠0. After describing the basis of this model--which is beyond the minimal supersymmetric Standard Model--with a superfield spectrum containing flavons in A4× A3\ representations, we first generate the tribimaximal neutrino mixing which is known to be in agreement with the mixing angles θ12 and θ23. Then, we give the scalar potential of the theory where the A3 discrete subsymmetry is used to avoid the so-called sequestering problem. We next study the deviation from the tribimaximal mixing matrix which is produced by perturbing the neutrino mass matrix with a nontrivial A4 singlet. Normal and inverted mass hierarchies are discussed numerically. We also study the breaking of A4\ down to Z3\ in the charged lepton sector, and use the branching ratio of the decay τ → μ μ e--which is allowed by the residual symmetry Z3--to get estimations on the mass of one of the flavons and the cutoff scale of the model.