Seesaw-I and II Hybrid T Symmetric Neutrino Masses with Mass Selection Rule

Abstract

The present manuscript studies a recently proposed new neutrino mixing scheme with a neutrino mass selection rule, m13 + m22 + m31 = 0, among a neutrino mass matrix elements. The neutrino mass matrix texture is achieved by means of T flavor discrete symmetry extension of the Standard Model gauge group. The model realizing the neutrino mixing pattern consists of a combination of type-I and II seesaw mechanisms in the minimal possible extension of the Standard Model. Stringent predictions are obtained for normal and inverted neutrino mass orderings. Some important predictions include α2 ≈ 2π (best fit), mlightest ≈ 3 - 4 × 10-4\,eV, and mee0ββ ≈ 3 × 10-3\,eV for normal neutrino mass ordering; 110 < α1 < 170, 40(220) < α2 < 60(240), 240 < δDirac < 310, and mlightest ≈ 2 × 10-5 - 7 × 10-3\,eV for inverted neutrino mass ordering.