Large Ue3 and Tri-bimaximal Mixing

Abstract

We investigate in a model-independent way to what extent one can perturb tri-bimaximal mixing in order to generate a sizable value of |Ue3|, while at the same time keeping solar neutrino mixing near its measured value, which is close to sin2 theta12 = 1/3. Three straightforward breaking mechanisms to generate |Ue3| of about 0.1 are considered. For charged lepton corrections, the suppression of a sizable contribution to sin2 theta12 can be achieved if CP violation in neutrino oscillations is almost maximal. Generation of the indicated value of |Ue3| of about 0.1 through renormalization group corrections requires the neutrinos to be quasi-degenerate in mass. The consistency with the allowed range of sin2 theta12 together with large running of |Ue3| forces one of the Majorana phases to be close to pi. This implies large cancellations in the effective Majorana mass governing neutrino-less double beta, constraining it to lie near its minimum allowed value of m0 cos 2 theta12, where m0 is greater than about 0.1 eV. Finally, explicit breaking of the neutrino mass matrix in the inverted hierarchical and quasi-degenerate neutrino mass spectrum cases is similarly correlated with the effective Majorana mass, although to a lesser extent. The implied values for the atmospheric neutrino mixing angle theta23 are given in all cases.