Resolving the NO and T2K tension in the presence of Neutrino Non-Standard interactions

Abstract

The current data of the two long-baseline accelerator experiments NO and T2K, shows a tension at more than 90\% C.L. for 2 degrees of freedom, in the determination of the standard CP-phase δ CP in case of neutrino normal ordering (NO). NO measures the value close to δ CP 0.8 π, while T2K prefers the value of δ CP 1.4 π. We show that such a tension can be resolved if one hypothesizes the existence of neutral-current non-standard interactions (NSI) of neutrinos involving the flavor changing type e-μ or the e-τ sectors with couplings |eμ| |eτ| 0.2. Remarkably, our analyses show that in the presence of such NSI, both the experiments point towards the same common value of the standard CP-phase δ CP 3π/2, thereby indicating towards the maximal CP-violation in the standard 3 framework. We also show that the best fit values of the new CP-phases φeμ or φeτ are close to 3π/2, hence pointing towards the maximal CP-violation in the NSI sector.