Non-vanishing Ue3 and 2 θ23 from a broken Z2 symmetry
Abstract
It is shown that the neutrino mass matrices in the flavour basis yielding a vanishing Ue3 are characterized by invariance under a class of Z2 symmetries. A specific Z2 in this class also leads to a maximal atmospheric mixing angle θ23. The breaking of that Z2 can be parameterized by two dimensionless quantities, and '; the effects of , ' ≠ 0 are studied perturbatively and numerically. The induced value of 3 strongly depends on the neutrino mass hierarchy. We find that 3 is less than 0.07 for a normal mass hierarchy, even when , ' 30 %. For an inverted mass hierarchy 3 tends to be around 0.1 but can be as large as 0.17. In the case of quasi-degenerate neutrinos, 3 could be close to its experimental upper bound 0.2. In contrast, | 2θ23 | can always reach its experimental upper bound 0.28. We propose a specific model, based on electroweak radiative corrections in the MSSM, for and '. In that model, both 3 and | 2 θ23 |, could be close to their respective experimental upper bounds if neutrinos are quasi-degenerate.
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