Implications of μ-τ Flavored CP Symmetry of Leptons

Abstract

We discuss gauge models incorporating μ-τ flavored CP symmetry (called CPμτ in the text) in combination with Lμ-Lτ invariance to understand neutrino mixings and discuss their phenomenological implications. We show that viable leptogenesis in this setting requires that the lightest right-handed neutrino mass must be between 109-1012 GeV and for effective two hierarchical right-handed neutrinos, leptogenesis takes place only in a narrower range of 5× 1010-1012 GeV. A multi-Higgs realization of this idea implies that there must be a pseudoscalar Higgs boson with mass less than 300 GeV. Generically, the vev alignment problem can be naturally avoided in our setting.