First Event-by-Event Identification of Cherenkov Radiation from Sub-MeV Particles in Liquid Argon

Abstract

This Letter reports the event-by-event observation of Cherenkov light from sub-MeV electrons in a high scintillation light-yield liquid argon (LAr) detector by the Coherent CAPTAIN-Mills (CCM) experiment. The CCM200 detector, located at Los Alamos National Laboratory, instruments 7 tons (fiducial volume) of LAr with 200 8-inch photomultiplier tubes (PMTs), 80% of which are coated in a wavelength shifting material and the remaining 20% are uncoated. In the prompt time region of an event, defined as -6 ≤ t < 0 ns relative to the event start time t=0, the uncoated PMTs are primarily sensitive to visible Cherenkov photons. Using gamma-rays from a 22Na source for production of sub-MeV electrons, we isolated prompt Cherenkov light with >5σ confidence and developed a selection to obtain a low-background electromagnetic sample. This is the first event-by-event observation of Cherenkov photons from sub-MeV electrons in a high-yield scintillator detector, and represents a milestone in low-energy particle detector development.