Fermion masses and mixing in SO(10) GUT with a universal two-zero texture

Abstract

We apply a universal two-zero texture (UTZT) to all mass matrices for matters in their flavour space in SO(10) GUT framework. This texture can be realised by assigning different charge for each family in a Z6 symmetry. By fixing charged fermion masses at their best-fit values, we fit the rest 9 precisely measured observables (three angles and one CP-violating phase in the quark mixing, three angles in the lepton mixing, and two neutrino mass-squared differences) with seven model parameters. The model fits all data of fermion masses and mixing very well and the leptonic CP-violating phase is predicted in the range (90, 230). The model further predicts the right-handed neutrino masses, with the lightest and heaviest of order 109 and 1012 GeV, respectively. Gauge unification and proton decay have been checked with the assumption of a breaking chain with two intermediate symmetries above the electroweak scale. It indicates that α GUT ranges in (0.022,0.032) as long as the assumption of economical choice of Higgs contents, and M GUT should be bigger than 4.5× 1015 GeV to meet the Super-K bound. We show effective mass mee for neutrinoless double beta decay, which provides us with a possibility to test grand unification with neutrinoless double beta decay experiments.

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