Neutrino Physics at the LHC: Status and Prospects

Abstract

The LHC is not only the most powerful collider built to date but also the source of an intense beam of the most energetic neutrinos ever produced by humankind. After nearly 15 years of LHC operation, these neutrinos have been observed for the first time by the FASER and SND@LHC experiments. This breakthrough marks the dawn of a new field: collider neutrino physics. Further neutrino measurements at the LHC will offer novel opportunities to advance neutrino physics, constrain the strong interaction in uncharted kinematic regimes, provide critical input for addressing outstanding questions in astroparticle physics, and search for phenomena predicted by scenarios of physics beyond the Standard Model. This proceeding reviews the existing and proposed neutrino detectors, presents their first results, and summarizes their physics potential.