Quark-lepton complementarity model based predictions for θ23PMNS with neutrino mass hierarchy

Abstract

After the successful investigation and confirmation of non zero θ13PMNS by various experiments, we are standing at a square where we still encounter a number of issues, which are to be settled. In this paper, we have extended our recent work towards a precise prediction of the θ23PMNS mixing angle, taking into account the neutrino mass hierarchy. We parameterize the non-trivial correlation between quark (CKM) and lepton (PMNS) mixing matrices in quark-lepton complementarity (QLC) model as Vc= UCKM. . UPMNS, where is a diagonal phase matrix. Monte Carlo simulations are used to estimate the texture of Vc and compare the results with the standard Tri-Bi-Maximal (TBM) and Bi-Maximal(BM) structures of neutrino mixing matrix. We have predicted the value of θ23PMNS for normal and inverted neutrino mass hierarchies. The value of θ23PMNS obtained for two cases are about 1.3σ away from each other, implying the better precision can give us a strong hint for the type of neutrino mass hierarchy.