Minimal Mass Matrices for Dirac Neutrinos

Abstract

We consider the possibility of neutrinos being Dirac particles and study minimal mass matrices with as much zero entries as possible. We find that up to 5 zero entries are allowed. Those matrices predict one vanishing mass state, CP conservation and Ue3 either zero or proportional to R, where R is the ratio of the solar and atmospheric m2. Matrices containing 4 zeros can be classified in categories predicting Ue3 = 0, Ue3 ≠ 0 but no CP violation or |Ue3| ≠ 0 and possible CP violation. Some cases allow to set constraints on the neutrino masses. The characteristic value of Ue3 capable of distinguishing some of the cases with non-trivial phenomenological consequences is about R/2 2 θ12. Matrices containing 3 and less zero entries imply (with a few exceptions) no correlation for the observables. We outline models leading to the textures based on the Froggatt-Nielsen mechanism or the non-Abelian discrete symmetry D4 × Z2.

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