Generalized Tri-bimaximal Neutrino Mixing and Its Sensitivity to Radiative Corrections
Abstract
We argue that the tri-bimaximal neutrino mixing pattern V0 or its generalized form V'0, which includes two arbitrary Majorana phases of CP violation, may result from an underlying flavor symmetry at a superhigh energy scale close to the seesaw scale ( 1014 GeV). Taking the working assumption that three neutrino masses are nearly degenerate, we calculate radiative corrections to V0 and V'0 in their evolution down to the electroweak scale ( 102 GeV). Three mixing angles of V0 or V'0 are essentially stable against radiative corrections in the standard model (SM). In the minimal supersymmetric standard model (MSSM), however, V0 is in general disfavored and V'0 can be compatible with current neutrino oscillation data if its two Majorana phases α1 and α2 are properly fine-tuned. We also find that it is possible to radiatively generate the CP-violating phase δ from α1 and α2, and δ may keep on staying at its fixed point in either the SM or the MSSM.
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