Is nonstandard interaction a solution to the three neutrino tensions?

Abstract

In this work we present a scenario in which a nonstandard interaction in neutrino propagation can explain the three major tensions in the neutrino oscillation data at present. These tensions are: (i) a non-zero best-fit value of the non-standard oscillation parameters in the the global analysis of the solar and KamLAND data which rules out the standard oscillation scenario at 90\% C.L, (ii) the measurement of the non-maximal value of θ23 by NO which excludes the maximal mixing at 2.5 σ C.L. and (iii) a discrepancy in the θ13 measurement by T2K which has a tension with the reactor best-fit value of 2θ13=0.021 at 90\% C.L. Our results show that all these three above mentioned anomalies can be explained if one assumes the existence of the non-standard interactions in neutrino propagation with θ23=45 and 2θ13=0.021 in the case of normal hierarchy. In our scenario the phase of εeτ is zero and the most favorable value of the Dirac CP phase is approximately 255.