Testing the minimal S4 model of neutrinos with the Dirac and Majorana phases

Abstract

We propose two new simple lepton flavor models in the framework of the S4 flavor symmetry. The neutrino mass matrices, which are given by two complex parameters, lead to the inverted mass hierarchy. The charged lepton mass matrix has the 1-2 lepton flavor mixing, which gives the non-vanishing reactor angle θ13. These models predict the Dirac phase and the Majorana phases, which are testable in the future experiments. The predicted magnitudes of the effective neutrino mass for the neutrino-less double beta decay are in the regions as 32~meV |mee| 49~meV and 34~meV |mee| 59~meV, respectively. These values are close to the expected reaches of the coming experiments. The total sum of the neutrino masses are predicted in both models as 0.0952~eV Σ mi 0.101~eV and 0.150~eV Σ mi 0.160~eV, respectively.