Towards identifying the minimal flavor symmetry behind neutrino oscillations

Abstract

Current neutrino oscillation data indicate that the 3× 3 Pontecorvo-Maki-Nakagawa-Sakata matrix U exhibits a μ-τ flavor interchange symmetry |Uμ i| = |Uτ i| (for i = 1, 2, 3) as a good approximation. In particular, the T2K measurement implies that the maximal neutrino mixing angle θ23 and the CP-violating phase δ should be close to π/4 and -π/2, respectively. Behind these observations lies a minimal flavor symmetry -- - the effective Majorana neutrino mass term keeps invariant under the transformations e L (e L)c, μ L (τ L)c and τ L (μ L)c. Extending this flavor symmetry to the canonical seesaw mechanism, we find that the R-matrix describing the strength of weak charged-current interactions of heavy Majorana neutrinos satisfies |Rμ i| = |Rτ i| as a consequence of |Uμ i| = |Uτ i|. This result can be used to set a new upper bound, which is about three orders of magnitude more stringent than before, on the flavor mixing factor associated with the charged-lepton-flavor-violating decay mode τ- e- + γ.

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