Majorana CP Violation in Approximately μ-τ Symmetric Models with det(M)=0

Abstract

We discuss effects of Majorana CP violation in a model-independent way for a given phase structure of flavor neutrino masses. To be more predictive, we confine ourselves to models with (M)=0, where M is a flavor neutrino mass matrix, and to be consistent with observed results of the neutrino oscillation, the models are subject to an approximate μ-τ symmetry. There are two categories of approximately μ-τ symmetric models classified as (C1) yielding 22θ23 ≈ 1 and 2θ13 1 and (C2) yielding 22θ23 ≈ 1 and m2/| matm2| 1, where θ23(13) stands for the mixing of massive neutrinos 2 and 3 (1 and 3) and m 2 ( matm2) stands for the mass squared difference for atmospheric (solar) neutrinos. The Majorana phase can be large for the normal mass hierarchy and for the inverted mass hierarchy with m1≈ -m2 only realized in (C1) while they are generically small for the inverted mass hierarchy with m1≈ m2 in both (C1) and (C2). These results do not depend on a specific choice of phases in M but hold true in any models with (M)=0 because of the rephasing invariance.