The Interplay between Neutrinos and Charged Leptons in the Minimal SU(3)LxU(1)N Gauge Model
Abstract
In the minimal SU(3)LxU(1)N gauge model with a global Le-Lmu-Ltau (=L') symmetry and a discrete Z4 symmetry, it is found that the interplay between neutrinos and charged leptons contained in triplets of i=(iL, iL, ciL) (i=1,2,3) naturally leads to the large mixing angle (LMA) MSW solution. The model includes two (anti)sextet Higgs scalars, S(0) with L'=0 and S(+) with L'=2, which, respectively, couple to 12,3 for the electron mass and masses of atmospheric neutrinos and to 2,32,3 for the μ- and τ-masses and one-loop radiative neutrino masses relevant to solar neutrinos. This mechanism is realized by utilizing an additional residual discrete symmetry supplied by explicitly broken L', which guarantees the absence of tree-level neutrino mass terms of the 2,32,3-type. Pure rotation effects due to the diagonalization of neutrino and charged-lepton mass matrices are estimated to yield m2/ m2atm ≤ (me/mμ)3/2=O(10-4) but the radiative effects supersede the rotation effects to yield m2/ m2atm=O(10-2) as the LMA solution.
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