Phenomenology of Maximal and Near-Maximal Lepton Mixing
Abstract
We study the phenomenological consequences of maximal and near-maximal mixing of the electron neutrino with other (x=tau and/or muon) neutrinos. We describe the deviations from maximal mixing in terms of a parameter ε1-22θex and quantify the present experimental status for |ε|<0.3. We find that the global analysis of solar neutrino data allows maximal mixing with confidence level better than 99% for 10-8 eV2 m22×10-7 eV2. In the mass ranges m2 1.5×10-5 eV2 and 4×10-10 eV2 m22×10-7 eV2 the full interval |ε|<0.3 is allowed within 4σ(99.995 % CL). We suggest ways to measure ε in future experiments. The observable that is most sensitive to ε is the rate [NC]/[CC] in combination with the Day-Night asymmetry in the SNO detector. With theoretical and statistical uncertainties, the expected accuracy after 5 years is ε 0.07. We also discuss the effects of maximal and near-maximal e-mixing in atmospheric neutrinos, supernova neutrinos, and neutrinoless double beta decay.
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