The translational μ-τ reflection symmetry of Majorana neutrinos

Abstract

The present neutrino oscillation data allow m1 = 0 (or m3 = 0) for the neutrino mass spectrum and support θ23 π/4 and δ -π/2 as two good approximations for the PMNS lepton flavor mixing matrix U. We show that these intriguing possibilities can be a very natural consequence of the translational μ-τ reflection symmetry -- the effective Majorana neutrino mass term keeps invariant under the transformations e L (e L)c + U*e i zc, μ L (τ L)c + U*τ i zc and τ L (μ L)c + U*μ i zc (for i = 1 or 3), where zc is the charge conjugation of a constant spinor field z. Extending such a working flavor symmetry to the canonical seesaw mechanism at a superhigh-energy scale, we calculate its soft breaking effects at the electroweak scale by using the one-loop renormalization-group equations.

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