Systematic Study Of Leptonic Mixing In A Class Of SUH(2) Models

Abstract

We perform a systematic analysis of the PMNS matrices which arise when one assigns the three generations of leptons to the 2 1 representation of a horizontal SUH(2) symmetry. This idea has been previously explored by Kuchimanchi and Mohapatra. However, we assume (i) the neutrino mass matrix results from leptonic couplings to SUL(2) triplet scalar fields and (ii) hierarchies exist amongst lepton mass matrix elements which result from couplings to scalar fields with different SUH(2) charges. Of the sixteen candidate PMNS matrices which result it is found that only one is both predictive and possesses a leading order structure compatible with experimental data. The relevant neutrino mass matrix displays the symmetry Le-Lμ-Lτ to leading order and we explore the perturbations required to produce a realistic lepton spectrum. The effective mass in neutrinoless double beta decay is required to lie in the range <m>/(10-2eV)∈[0.7,2.5], which is just below current experimental bounds. Ue3 is non-zero but not uniquely determined.

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