Sensitivity of T2KK to the non-standard interaction in propagation

Abstract

Assuming only the non-zero electron and tau neutrino components εee, εeτ, εττ of the non-standard matter effect and postulating the atmospheric neutrino constraint εττ=|εeτ|2/(1+εee), we study the sensitivity to the non-standard interaction in neutrino propagation of the T2KK neutrino long-baseline experiment. It is shown that T2KK can constrain the parameters |εee| 1, |εeτ| 0.2. It is also shown that if |εeτ| and θ13 are large, then T2KK can determine the Dirac phase and the phase of εeτ separately, due to the information at the two baselines. We also provide an argument that the components |εαμ| (α=e,μ,τ) must be small for the disappearance oscillation probability to be consistent with high-energy atmospheric neutrino data, which justifies our premise that these quantities are negligible.