Non-standard interaction in neutrino oscillations and recent Daya Bay, T2K experiments

Abstract

We study the possible constraints on non-standard interaction(NSIs) in a model independent way by considering the recent results from T2K and Daya Bay neutrino oscillations experiments. Using perturbation method we present generic formulas (suitable for T2K baseline and for large θ13 as evident from Daya Bay) for the probability of oscillation for μ → e, taking into account NSIs at source (εs), detector (εd) and during propagation (εm) of neutrinos through matter. Two separate cases of perturbation with small (slightly large) NSI (εαβm 0.03(0.18)) are discussed in detail. Using various possible presently allowed NSI values we reanalyze numerically the θ13 - δ allowed region given by recent T2K experimental data. We obtain model independent constraints on NSIs in the δ-εαβm plane using the θ13 value as measured by Daya Bay, where δ is the CP violating phase. Depending on δ values significant constraints on εeτ and εττ, in particular, are possible for both hierarchies of neutrino masses. Corresponding to T2K's 66% confidence level result, the constraints on εττ is shown to be independent of any δ value.