Almost general analysis of μ-τ reflection symmetry perturbed by charged leptons and its testability by DUNE and T2HK
Abstract
In this paper, we generally analyze the μ - τ reflection symmetry modified by small mixings of charged leptons and how will future experiments verify deviations from the predictions of the symmetry. As an approximation, the left-handed diagonalization Ue of charged leptons is assumed to have a similar magnitude as the CKM matrix. In other words, the 1-3 mixing is neglected and the 1-2 and 2-3 mixing are to be approximately O(0.1). The Dirac CP phase δ of the MNS matrix is evaluated in such parameter regions. As a result, deviations from the predictions θ23 = π/4 and δ = π/2 depend on relative CP phases between Ue and diagonalization of neutrinos U. While phases of the second and third generations cause only about 10 deviations for the Dirac phase δ, the phase of the first generation can cause up to 30. This flavor dependence is distinguished to some extent by the next-generation experiments. On the other hand, if δ is not observed, such a scenario is excluded by about 5 years of observation.
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