General solutions for TM1,2 mixing in the minimal type-I seesaw mechanism and phenomenological constraints to Yukawa matrix of neutrinos

Abstract

In this paper, we concisely represent the general solution for the TM1,2 mixing in the type-I minimal seesaw mechanism and show phenomenological constraints of the Yukawa matrix of neutrinos Y. First, conditions of Z2 symmetry associated with TM1,2 restrict two complex parameters. In addition, three complex parameters are constrained from five phenomenological parameters (two neutrino masses mi, the mixing angle θ13, the Dirac phase δ, and the Majorana phase α) and the overall phase. As a result, there is only one free complex parameter for Y, except for the right-handed neutrino masses M1,2. For the TM1 mixing with normal hierarchy, the symmetry condition is imposed only on Y, and the physical parameters depend on MR. In other situations, the dimensionless parameters (θ13, δ and α) do not depend on MR but only on certain combinations of the components of Y.