Nearly Bi-Maximal Neutrino Mixing, Muon g-2 Anomaly and Lepton-Flavor-Violating Processes
Abstract
We interpret the newly observed muon g-2 anomaly in the framework of a leptonic Higgs doublet model with nearly degenerate neutrino masses and nearly bi-maximal neutrino mixing. Useful constraints are obtained on the rates of lepton-flavor-violating rare decays τ μ γ, μ e γ and τ e γ as well as the μ-e conversion ratio Rμ e. We find that (μ e γ), (τ e γ) and Rμ e depend crucially on possible non-zero but samll values of the neutrino mixing matrix element Ve3, and they are also sensitive to the Dirac-type CP-violating phase. In particular, we show that (τ μ γ)/m5τ, (μ e γ)/m5μ and (τ e γ)/m5τ are approximately in the ratio 1: 2|Ve3|2: 2|Ve3|2 if |Ve3| is much larger than O(10-2), and in the ratio 2 ( m2 atm)2: ( m2 sun)2:( m2 sun)2 if |Ve3| is much lower than O(10-3), where m2 atm and m2 sun are the corresponding mass-squared differences of atmospheric and solar neutrino oscillations.
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