Revisiting fermion mass and mixing fits in the minimal SUSY SO(10) GUT

Abstract

Supersymmetric SO(10) grand unified models with renormalizable Yukawa couplings involving only 10 and 126 Higgs fields have been shown to realize the fermion masses and mixings economically. In previous works, the sum rule of the fermion mass matrices are given by inputting the quark matrices, and the neutrino mixings are predicted in this framework. Now the three neutrino mixings have been measured, and in this paper, we give the sum rule by inputting the lepton mass matrices, which makes clear certain features of the solution, especially if the vacuum expectation values of 126+ 126 (vR) are large and the right-handed neutrinos are heavy. We perform the 2 analyses to fit the fermion masses and mixings using the sum rule. In previous works, the best fit appears at vR 1013 GeV, and the fit at the large vR scale ( 1016 GeV) has been less investigated. Our expression of the sum rule has a benefit to understand the flavor structure in the large vR solution. Using the fit results, we perform the calculation of the μ eγ process and the electric dipole moment of electron, and the importance of vR dependence emerges in low energy phenomena. We also show the prediction of the CP phase in the neutrino oscillations, which can be tested in the near future.