Physics – High Energy Physics – High Energy Physics - Phenomenology
Scientific paper
2001-07-09
Phys.Rev. D64 (2001) 113013
Physics
High Energy Physics
High Energy Physics - Phenomenology
18 pages, Revtex
Scientific paper
10.1103/PhysRevD.64.113013
Atmospheric neutrino data strongly suggests a near-maximal \nu_\mu-\nu_{\tau} mixing and also solar neutrino data can be nicely explained by another near-maximal \nu_e-\nu_{\mu} or \nu_e-\nu_{\tau} mixing. We examine the possibility that this bi-maximal mixing of atmospheric and solar neutrinos arises naturally, while keeping U_{e3} and \Delta m^2_{sol}/\Delta m^2_{atm} small enough, as a consequence of Abelian flavor symmetry. Two simple scenarios of Abelian flavor symmetry within supersymmetric framework are considered to obtain the desired form of the neutrino mass matrix and the charged lepton mass matrix parameterized by the Cabibbo angle \lambda\approx 0.2. Future experiments at a neutrino factory measuring the size of U_{e3} and the sign of \Delta m^2_{32} could discriminate those scenarios as they predict distinctive values of U_{e3} in connection with \Delta m^2_{sol}/\Delta m^2_{atm} and also with the order of the neutrino mass eigenvalues.
Choi Kiwoon
Chun Eung Jin
Hwang Kyuwan
Song Wan Young
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