arxiv:2501.08278

Lake- and Surface-Based Detectors for Forward Neutrino Physics

Published on Jan 14

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Abstract

Two neutrino experiments, SINE and UNDINE, utilize scintillator and water Cherenkov detectors to study neutrinos from LHC collisions, providing data on neutrino cross sections and charm production.

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We propose two medium-baseline, kiloton-scale neutrino experiments to study neutrinos from LHC proton-proton collisions: SINE, a surface-based scintillator panel detector observing muon neutrinos from the CMS interaction point, and UNDINE, a water Cherenkov detector submerged in lake Geneva observing all-flavor neutrinos from LHCb. Using a Monte Carlo simulation, we estimate millions of neutrino interactions during the high-luminosity LHC era. We show that these datasets can constrain neutrino cross sections, charm production in pp collisions, and strangeness enhancement as a solution to the cosmic-ray muon puzzle. SINE and UNDINE thus offer a cost-effective medium-baseline complement to the proposed short-baseline forward physics facility.

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