Deviation of Atmospheric Mixing from Maximal and Structure in the Leptonic Flavor Sector
Abstract
I attempt to quantify how far from maximal one should expect the atmospheric mixing angle to be given a neutrino mass-matrix that leads, at zeroth order, to a nu3 mass-eigenstate that is 0% nue, 50% numu, and 50% nutau. This is done by assuming that the solar mass-squared difference is induced by an "anarchical" first order perturbation, an approach than can naturally lead to experimentally allowed values for all oscillation parameters. In particular, both |cos 2thetaatm| (the measure for the deviation of atmospheric mixing from maximal) and |Ue3| are of order sqrt(Delta m2sol/Delta m2atm) in the case of a normal neutrino mass-hierarchy, or of order Delta m2sol/Delta m2atm in the case of an inverted one. Hence, if any of the textures analyzed here has anything to do with reality, next-generation neutrino experiments can see a nonzero cos 2thetaatm in the case of a normal mass-hierarchy, while in the case of an inverted mass-hierarchy only neutrino factories should be able to see a deviation of sin2 2thetaatm from 1.
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