Understanding for flavor physics in the lepton sector

Abstract

In this paper, we give a model for understanding flavor physics in the lepton sector--mass hierarchy among different generations and neutrino mixing pattern. The model is constructed in the framework of supersymmetry, with a family symmetry S4*U(1). There are two right-handed neutrinos introduced for seesaw mechanism, while some standard model(SM) gauge group singlet fields are included which transforms non-trivially under family symmetry. In the model, each order of contributions are suppressed by δ 0.1 compared to the previous one. In order to reproduce the mass hierarchy, mτ and matm2, mμ and msol2 are obtained at leading-order(LO) and next-to-leading-order(NLO) respectively, while electron can only get its mass through next-to-next-to-next-to-leading-order(NNNLO) contributions. For neutrino mixing angels, θ12, θ23, θ13 are 45, 45, 0 i.e. Bi-maximal mixing pattern as first approximation, while higher order contributions can make them consistent with experimental results. As corrections for θ12 and θ13 originate from the same contribution, there is a relation predicted for them θ13= 1-θ121+θ12. Besides, deviation from π4 for θ23 should have been as large as deviation from 0 for θ13 if it were not the former is suppressed by a factor 4 compared to the latter.