μ-τ Reflection Symmetry and Its Explicit Breaking for Leptogenesis in a Minimal Seesaw Model

Abstract

The minimal seesaw framework, embroiling the Dirac neutrino mass matrix MD and the Majorana neutrino mass matrix MR , is quite successful to explain the current global-fit results of neutrino oscillation data. In this context, we consider most predictive forms of MD and MR with two simple parameters, respectively. Considering these matrices, we obtain the low energy neutrino mass matrix under type-I seesaw formalism which obeys μ-τ reflection symmetry and predicts θ23 = π/4 and δ = π/2 . In the given set-up, we also evaluate the Baryon Asymmetry of the Universe (BAU) through successful leptogenesis and find that perturbation of O(10-2) leads to the observed BAU and breaks exactness of the symmetry. Moreover, we also perform various correlation studies among different parameters in the framework of broken symmetry.