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Searching for generalized neutrino interactions in direct detection experiments with E{ν}ES

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arxiv 2510.17027 v3 pith:GFGH3T7W submitted 2025-10-19 hep-ph

Searching for generalized neutrino interactions in direct detection experiments with E{ν}ES

classification hep-ph
keywords interactionsneutrinoconstraintsdetectiondirectexperimentsgeneralizedcompetitive
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We investigate the sensitivity of present and future direct detection experiments to generalized neutrino interactions (GNI) through elastic neutrino electron scattering. Using data from LUX-ZEPLIN, PandaX-4T, and XENONnT, we derive constraints on vector, axial-vector, scalar, and tensor effective couplings, and compare them with existing limits. Our results show that current xenon-based detectors already provide competitive bounds, with XENONnT offering the most stringent constraints due to its larger exposure and reduced backgrounds. Among the GNI couplings, the scalar contributions remain more weakly constrained, while tensor interactions yield the strongest limits. We also present projected sensitivities for the DARWIN experiment, showing potential improvements. These results demonstrate the capability of direct detection experiments, originally designed for dark matter searches, to provide complementary and competitive constraints on generalized neutrino interactions.

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  1. Generalized Neutrino Interactions: constraints and parametrizations

    hep-ph 2026-02 unverdicted novelty 4.0

    Relating two GNI parametrizations shows scalar neutrino-quark interactions are more tightly constrained by COHERENT while tensor interactions are better bounded by deep inelastic scattering.