Chiral perturbative solution for the type-I seesaw mechanism in next-to-leading order

Abstract

In this letter, we perform chiral perturbative diagonalization of the type-I seesaw mechanism by hierarchical singular values λi of the Dirac mass matrix mD up to the next-to-leading order (NLO). Since the mass matrix of right-handed neutrinos MR has parity symmetries under λi - λi, the singular values Mi and mixing angles of diagonalization of MR are written by only even and odd orders of λi respectively. We confirm this fact by specific perturbative expansions of the third- and the fourth-order by λi. As a result, as long as the chiral perturbation theory is valid, the NLO contributions are generally suppressed by O(λi2 / j2) 1\% compared to the leading-order expressions that have sufficient accuracies.