Origin of Constrained Maximal CP Violation in Flavor Symmetry

Abstract

Current data from neutrino oscillation experiments are in good agreement with δ =-π2 and θ23 = π4. We define the notion of "constrained maximal CP violation" (CMCPV) for predicting these features and study their origin in flavor symmetry. We derive the parametrization-independent solution of CMCPV and give a set of equivalent definitions for it. We further present a theorem on how the CMCPV can be realized. This theorem takes advantage of residual symmetries in the neutrino and charged lepton mass matrices, and states that, up to a few minor exceptions, (|δ |, θ23) =(π2, π4) is generated when those symmetries are real. The often considered μ-τ reflection symmetry, as well as specific discrete subgroups of O(3), are special cases of our theorem.