Neutrino Non-Standard Interactions from LLE-type R-parity Violation
Abstract
We study neutrino non-standard interactions (NSI) induced by the trilinear LLE couplings in R-parity-violating supersymmetry in a split-family spectrum where third-generation sleptons can be comparatively light. We systematically classify the relevant coupling patterns, derive the corresponding effective interactions and NSI parameters, and confront the resulting parameter space with a broad set of experimental constraints. We find that percent-level NSI can be realized in selected channels, with the largest magnitudes reaching ee 8\% and μμ 3.8\%, while other entries are typically restricted to the sub-percent level (including μτ -0.3\% in the viable off-diagonal case). We also highlight the structural origin of the different constraint patterns between τR- and τL-mediated scenarios and comment on the relation to the Zee model.
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