Allowed region for the (second) lightest mass M1,2 of right-handed neutrino R 1,2 with SO (10)-inspired relations and sequential dominance

Abstract

In this paper, we evaluate the (second) lightest mass M1,2 of right-handed neutrino R1,2 in grand unified theories with the type-I seesaw mechanism that predicts an almost massless neutrino m1 \, or \, 3 0. By chiral perturbative treatment, the masses M1,2 are expressed as M1 = mD12/m11 , \, M2 = mD22 m11 / (m11 m22 - m122) with the mass matrix of left-handed neutrinos m in the diagonal basis of the Dirac mass matrix mD. Assuming mDi and the unitary matrix V in the singular value decomposition (mD)ij = Vik mD k Ukj are close to observed fermion masses and the CKM matrix, M1,2 and their allowed regions are expressed by parameters in the low energy and unknown phases. As a result, for mD1 0.5 MeV and mD2 100 MeV, we obtain M1 NH 3 × 104 - 6 GeV and M2 NH 3 × 106-8 GeV in the NH, M1 IH 5 × 103 - 4 GeV and M2 IH 4 × 108-9 GeV in the IH. These upper and lower bounds are proportional to mDi2 or mD1 mD2.

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