Strong thermal Leptogenesis: an exploded view of the low energy neutrino parameters in the SO(10)-inspired model

Abstract

Leptogenesis is an attractive scenario in which neutrino masses and baryon asymmetry of the Universe are explained together under a minimal set of assumptions. After formulating the problem of initial conditions and introducing the strong thermal leptogenesis conditions as solution, we show that, within the framework provided by the ~model of leptogenesis, the latter lead to a set of testable predictions on the same neutrino parameters currently under experimental investigations. The emerging scenario selects the normal ordering of the neutrino mass pattern, a large value for the reactor mixing angle, 2 θ13 20, as well as a non maximal atmospheric mixing angle, 16 θ23 41, and favours negative values for the Dirac phase δ. The signature of the proposed strong thermal ~solutions is in the relation obtained between the effective Majorana mass and the lightest neutrino mass: mee ≈ 0.8 \, m1 ≈ 15 meV.