Abstract
A series of new physics scenarios predict the existence of the extra charged gauge boson , which can induce charged-current (CC) non-standard neutrino interactions (NSIs). The theoretical constraints on the simplified model and further on the CC NSI parameters from partial wave unitarity and decays are considered. The sensitivity of the process to the model at the LHC and high-luminosity (HL) LHC experiments is investigated by estimating the expected constraints on ( or μ) using a Monte-Carlo (MC) simulation. We find that the interference effect plays an important role, and the LHC can strongly constrain . Compared with those at the LHC with , the expected constraints at the LHC with can be strengthened to approximately one order of magnitude.
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