Perturbed invariant under a cyclic permutation with trace of neutrino mass matrix remain constant

Abstract

We construct a neutrino mass matrix M via a seesaw mechanism whith perturbed invariant under a cyclic permutation by introducing one parameter δ into the diagonal elements of M with assumption that trace of the perturbed M is equal to trace of the unperturbed M. We found that the perturbed neutrino mass matrices M can predicts the mass-squared difference mij2≠ 0 with the possible hierarchy of neutrino mass is normal or inverted hierarchy. By using the advantages of the mass-squared differences and mixing parameters data from neutrino oscillaton experiments, we obtained neutrino masses in inverted hierarchy with masses: |m1|=0.101023 eV, |m2|=0.101428 eV, and |m3|=0.084413 eV.