Non-Standard Neutrino Interactions and Neutral Gauge Bosons

Abstract

We investigate Non-Standard Neutrino Interactions (NSI) arising from a flavor-sensitive Z' boson of a new U(1)' symmetry. We compare the limits from neutrino oscillations, coherent elastic neutrino-nucleus scattering, and Z' searches at different beam and collider experiments for a variety of straightforward anomaly-free U(1)' models generated by linear combinations of B-L and lepton-family-number differences Lα-Lβ. Depending on the flavor structure of those models it is easily possible to avoid NSI signals in long-baseline neutrino oscillation experiments or change the relative importance of the various experimental searches. We also point out that kinetic Z-Z' mixing gives vanishing NSI in long-baseline experiments if a direct coupling between the U(1)' gauge boson and matter is absent. In contrast, Z-Z' mass mixing generates such NSI, which in turn means that there is a Higgs multiplet charged under both the Standard Model and the new U(1)' symmetry.