Radiative corrections and explicit perturbations to the tetra-maximal neutrino mixing with large theta13

Abstract

The tetra-maximal neutrino mixing pattern predicts a relatively large reactor mixing angle theta13 ≈ 8.4, which is in good agreement with the latest best-fit value theta13 = 9. However, its prediction for theta12 ≈ 30.4 is inconsistent with current oscillation data at the 3sigma C.L. We show that explicit perturbations to the tetra-maximal mixing can naturally enhance theta12 to its best-fit value theta12 = 34. Furthermore, we demonstrate that if the tetra-maximal mixing is produced by a certain flavor symmetry at a high-energy scale Lambda = 1014 GeV, significant radiative corrections in the minimal supersymmetric standard model can modify theta12 to be compatible with experimental data at the electroweak scale LambdaEW = 102 GeV. The predictions for theta13 ≈ 8.4 and theta23 = 45, as well as the CP-violating phases rho = sigma = -delta = 90, are rather stable against radiative corrections.