A Flavor Symmetry Model for Bilarge Leptonic Mixing and the Lepton Masses

Abstract

We present a model for leptonic mixing and the lepton masses based on flavor symmetries and higher-dimensional mass operators. The model predicts bilarge leptonic mixing (i.e., the mixing angles theta12 and theta23 are large and the mixing angle theta13 is small) and an inverted hierarchical neutrino mass spectrum. Furthermore, it approximately yields the experimental hierarchical mass spectrum of the charged leptons. The obtained values for the leptonic mixing parameters and the neutrino mass squared differences are all in agreement with atmospheric neutrino data, the Mikheyev--Smirnov--Wolfenstein large mixing angle solution of the solar neutrino problem, and consistent with the upper bound on the reactor mixing angle. Thus, we have a large, but not close to maximal, solar mixing angle theta12, a nearly maximal atmospheric mixing angle theta23, and a small reactor mixing angle theta13. In addition, the model predicts theta12 ~= pi/4 - theta13.

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