Study of low-energy nuclear recoils in liquid argon with the ReD experiment

Study of low-energy nuclear recoils in liquid argon with the ReD experiment

Liquid Argon (LAr) Time Projection Chambers (TPC) operating in double-phase can detect the nuclear recoils (NR) possibly caused by the elastic scattering of WIMP dark matter particles via light signals from both scintillation and ionization processes. In the scenario of a low-mass WIMP (< 2 GeV/c...

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Veröffentlicht in:JINST 2024-04, Vol.19 (4), p.C04054
Hauptverfasser: Pino, N., Ahmad, I., Albergo, S., Albuquerque, I., Atzori Corona, M., Ave, M., Bottino, B., Cadeddu, M., Caminata, A., Canci, N., Cesarano, R., Davini, S., Dias, L.K.S., Di Capua, F., Dolganov, G., Fiorillo, G., Franco, D., Gulino, M., Kemmerich, N., Kimura, M., Kuźniak, M., La Commara, M., Matteucci, G., Moura Santos, E., Oleynikov, V., Pandola, L., Perez Varona, R., Puglia, S.M.R., Rescigno, M., Sales Costa, B., Sanfilippo, S., Sunny, C., Suvorov, Y., Tartaglia, R., Testera, G., Tricomi, A., Wada, M., Wang, Y., Wojaczyński, R., Zakhary, P.
Format: Artikel
Sprache:eng
Schlagworte:
Argon
Dark matter
Dark Matter detectors (WIMPs, axions, etc.)
Elastic scattering
Instrumentation and Detectors
Ionization
Ionization and excitation processes
Noble liquid detectors (scintillation, ionization, double-phase)
Physics
Recoil
Time projection chambers
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Zusammenfassung:Liquid Argon (LAr) Time Projection Chambers (TPC) operating in double-phase can detect the nuclear recoils (NR) possibly caused by the elastic scattering of WIMP dark matter particles via light signals from both scintillation and ionization processes. In the scenario of a low-mass WIMP (< 2 GeV/c 2 ), the energy range for the NRs would be below 20 keV, thus making it crucial to characterize the ionization response in LAr TPCs as the lone available detection channel at such low energy. The Recoil Directionality (ReD) project, within the Global Argon Dark Matter Collaboration, aims to measure the ionization yield of a LAr TPC in the recoil energy range of 2–5 keV. The measurement was performed in winter 2023 at the INFN Sezione of Catania and the analysis is ongoing.
ISSN:1748-0221
1748-0221
DOI:10.1088/1748-0221/19/04/C04054