Minimal predictive see-saw model with normal neutrino mass hierarchy

Abstract

We consider the type I see-saw model with two right-handed neutrinos and a normal neutrino mass hierarchy and impose a zero coupling between the right-handed neutrino mainly responsible for the atmospheric neutrino mass and the electron neutrino. We derive a master formula which relates see-saw input parameters in a one to one correspondence with physical neutrino observables. Using the master formula we search for simple ratios of couplings consistent with current data on neutrino mass and lepton mixing. We discover a minimal predictive example in which the right-handed neutrino mainly responsible for the atmospheric neutrino mass has couplings to (ν e , ν μ , ν τ ) proportional to (0, 1, 1) and the right-handed neutrino mainly responsible for the solar neutrino mass has couplings to (ν e , ν μ , ν τ ) proportional to (1, 1, 3) or (1, 3, 1), with a relative phase η = ∓π/3, providing the link between leptogenesis and CP violation in neutrino oscillation experiments. We show how these patterns of couplings could arise from an A 4 family symmetry model of leptons which predicts all the PMNS parameters in terms of the neutrino mass ratio m 2 /m 3, corresponding to Tri-bimaximal-Cabibbo mixing, accurate to one degree, with the prediction δ ≈ ±π/2.