μ-τ symmetry breaking and CP violation in the neutrino mass matrix

Abstract

The μ-τ exchange symmetry in the neutrino mass matrix and its breaking as a perturbation are discussed. The exact μ-τ symmetry restricts the 2-3 and 1-3 neutrino mixing angles as θ23 = π/4 and θ13 = 0 at a zeroth order level. We claim that the μ-τ symmetry breaking prefers a large CP violation to realize the observed value of θ13 and to keep θ23 nearly maximal, though an artificial choice of the μ-τ breaking can tune θ23, irrespective of the CP phase. We exhibit several relations among the deviation of θ23 from π/4, θ13 and Dirac CP phase δ, which are useful to test the μ-τ breaking models in the near future experiments. We also propose a concrete model to break the μ-τ exchange symmetry spontaneously and its breaking is mediated by the gauge interactions radiatively in the framework of the extended gauge model with B-L and Lμ - Lτ symmetries. As a result of the gauge mediated μ-τ breaking in the neutrino mass matrix, the artificial choice is unlikely, and a large Dirac CP phase is preferable.