Proportional electroluminescence in two-phase argon and its relevance to rare-event experiments
A. Bondar, A. Buzulutskov, A. Dolgov, V. Nosov, L. Shekhtman, E., Shemyakina, A. Sokolov
TL;DR
This study systematically investigates proportional electroluminescence in two-phase argon at cryogenic temperatures, revealing the effects of nitrogen doping and providing insights crucial for dark matter detection experiments.
Contribution
First systematic measurement of EL in two-phase argon with N2 doping, clarifying emission mechanisms and thresholds relevant for dark matter detectors.
Findings
EL amplification of 109 photons/electron/kV in VUV and UV
EL threshold at 3.7 kV/cm matches theoretical predictions
N2 doping influences emission spectra and detector sensitivity
Abstract
Proportional electroluminescence (EL) in gaseous Ar has for the first time been systematically studied in the two-phase mode, at 87 K and 1.00 atm. Liquid argon had a minor (56 ppm) admixture of nitrogen, which allowed to understand, inter alia, the effect of N2 doping on the EL mechanism in rare-event experiments using two-phase Ar detectors. The measurements were performed in a two-phase Cryogenic Avalanche Detector (CRAD) with EL gap located directly above the liquid-gas interface. The EL gap was optically read out in the Vacuum Ultraviolet (VUV), near 128 nm (Ar excimer emission), and in the near Ultraviolet (UV), at 300-450 nm (N2 Second Positive System emission), via cryogenic PMTs and a Geiger-mode APD (GAPD). Proportional electroluminescence was measured to have an amplification parameter of 109+-10 photons per drifting electron per kV overall in the VUV and UV, of which 51+-6%…
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