Alleviating the present tension between T2K and NO with nonstandard neutrino interactions
Abstract
Since neutrino oscillation was observed, several experiments have been built to measure its parameters. NO and T2K are two long-baseline experiments dedicated to measuring mainly the mixing angle θ23, the charge-parity conjugation phase δ CP, and the mass ordering. However, there is a tension in current data. The T2K allowed region is in conflict with the region allowed by NO. We propose a nonstandard charged current interaction (CC-NSI) in neutrino production to relieve this tension. The CC-NSI is computed through quantum field theory (QFT) formalism, where we derive perturbative analytical formulae considering CC-NSI in the pion decay. Within this new approach, we can alleviate NO and T2K tension for a CC-NSI complex parameters of order 10-3. We show the new phase has a degeneracy to the Dirac CP phase of the form δ CP φ= 1.5π being a possible source of violation of charge-parity symmetry.
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