Texture zeroes and discrete flavor symmetries in light and heavy Majorana neutrino mass matrices: a bottom-up approach

Abstract

Texture zeroes in neutrino mass matrix M may give us hints about the symmetries involved in neutrino mass generation. We examine the viability of such texture zeroes in a model independent way through a bottom-up approach. Using constraints from the neutrino oscillation data, we develop an analytic framework that can identify these symmetries and quantify deviations from them. We analyze the textures of M as well as those of MM, the mass matrix of heavy Majorana neutrinos in the context of Type-I seesaw. We point out how the viability of textures depends on the absolute neutrino mass scale, the neutrino mass ordering and the mixing angle θ13. We also examine the compatibility of discrete flavor symmetries like μ--τ exchange and S3 permutation with the current data. We show that the μ-τ exchange symmetry for M can be satisfied for any value of the absolute neutrino mass, but for M to satisfy the S3 symmetry, neutrino masses have to be quasi-degenerate. On the other hand, both these symmetries are currently allowed for MM for all values of absolute neutrino mass and both mass orderings.