Deviation from Bimaximal Mixing and Leptonic CP Phases in S4 Family Symmetry and Generalized CP

Abstract

The lepton flavor mixing matrix having one row or one column in common with the bimaximal mixing up to permutations is still compatible with the present neutrino oscillation data. We provide a thorough exploration of generating such a mixing matrix from S4 family symmetry and generalized CP symmetry HCP. Supposing that S4 HCP is broken down to ZST2SU2× HCP in the neutrino sector and ZTST2U4 HlCP in the charged lepton sector, one column of the PMNS matrix would be of the form (1/2, 1/2, 1/2)T up to permutations, both Dirac CP phase and Majorana CP phases are trivial in order to accommodate the observed lepton mixing angles. The phenomenological implications of the remnant symmetry K(TST2, T2U)4 HCP in the neutrino sector and ZSU2× HlCP in the charged lepton sector are studied. One row of PMNS matrix is determined to be (1/2, 1/2, -i/2), and all the three leptonic CP phases can only be trivial to fit the measured values of the mixing angles. Two models based on S4 family symmetry and generalized CP are constructed to implement these model independent predictions enforced by remnant symmetry. The correct mass hierarchy among the charged leptons is achieved. The vacuum alignment and higher order corrections are discussed.