Non-zero θ13 with Unbroken μ-τ Symmetry of the Active Neutrino Mass Matrix in the Presence of a Light Sterile Neutrino

Abstract

We revisit the possibility of generating non-zero reactor mixing angle in a scenario where there is a sterile neutrino at the eV scale apart from the usual three sub-eV scale active neutrinos. We show that the 3×3 active neutrino mass matrix can possess a μ-τ symmetry and can still be consistent with non-zero value of the reactor mixing angle θ13, if this μ-τ symmetry is broken in the sterile neutrino sector. We first propose a simple model based on the discrete flavour symmetry A4 × Z3 × Z3 to realise such a scenario and then numerically evaluate the complete 3+1 neutrino parameter space that allows such a possibility. We show that, such a possibility of generating non-zero θ13 can in general, remain valid even if the present 3+1 neutrino global fit data get ruled out by future experiments. We also discuss the possible implications at neutrinoless double beta decay (0 β β) experiments in view of the latest results from KamLAND-Zen experiment.