The ReD experiment for low-energy nuclear recoils in a liquid argon TPC

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The ReD experiment for low-energy nuclear recoils in a liquid argon TPC. / Pino, N.; Ahmad, I.; Albergo, S. и др.

2024.

Результаты исследований: Материалы конференций › материалы › Рецензирование

Harvard

Pino, N, Ahmad, I, Albergo, S, Albuquerque, I, Corona, MA, Ave, M, Bottino, B, Cadeddu, M, Caminata, A, Canci, N, Cesarano, R, Davini, S, Dias, LKS, Di Capua, F, Dolganov, G, Fiorillo, G, Franco, D, Gulino, M, Kemmerich, N, Kimura, M, Kuźniak, M, La Commara, M, Matteucci, G, Santos, EM, Oleynikov, V, Pandola, L, Varona, RP, Puglia, SMR, Rescigno, M, Costa, BS, Sanfilippo, S, Sunny, C, Suvorov, Y, Tartaglia, R, Testera, G, Tricomi, A, Wada, M, Wang, Y, Wojaczyn, R & Zakhary, P 2024, 'The ReD experiment for low-energy nuclear recoils in a liquid argon TPC'. https://doi.org/10.1393/ncc/i2024-24130-0

APA

Pino, N., Ahmad, I., Albergo, S., Albuquerque, I., Corona, M. A., 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., ... Zakhary, P. (2024). The ReD experiment for low-energy nuclear recoils in a liquid argon TPC. https://doi.org/10.1393/ncc/i2024-24130-0

Vancouver

Pino N, Ahmad I, Albergo S, Albuquerque I, Corona MA, Ave M и др. The ReD experiment for low-energy nuclear recoils in a liquid argon TPC. 2024. doi: 10.1393/ncc/i2024-24130-0

Author

Pino, N. ; Ahmad, I. ; Albergo, S. и др. / The ReD experiment for low-energy nuclear recoils in a liquid argon TPC.

BibTeX

@conference{95b3a48373e9469aa0ec83cd42a31f87,

title = "The ReD experiment for low-energy nuclear recoils in a liquid argon TPC",

abstract = "Time Projection Chambers filled with Ar in double phase are largely employed in the direct detection of Weakly Interacting Massive Particles (WIMPs) as Dark Matter candidates. Models predict WIMP with a mass at the electroweak scale, so the expected energy of the Ar nuclear recoil after a WIMP-induced scattering is in the range of tens of keV. However, if these particles had mass at the GeV/c2 scale, the deposited energy would drop to a few keV. In this scenario, WIMP direct detection will become challenging but still possible in these detectors, as proved by recent studies on the data collected by DarkSide-50. Since the future generation of multi-tonnes experiments aims to be sensitive also at this low-mass scale, the REcoil Directionality (ReD) experiment underwent a campaign to investigate the ionization response of LAr down to a few keV.",

author = "N. Pino and I. Ahmad and S. Albergo and I. Albuquerque and Corona, {M. Atzori} and M. Ave and B. Bottino and M. Cadeddu and A. Caminata and N. Canci and R. Cesarano and S. Davini and Dias, {L. K.S.} and {Di Capua}, F. and G. Dolganov and G. Fiorillo and D. Franco and M. Gulino and N. Kemmerich and M. Kimura and M. Ku{\'z}niak and {La Commara}, M. and G. Matteucci and Santos, {E. Moura} and V. Oleynikov and L. Pandola and Varona, {R. Perez} and Puglia, {S. M.R.} and M. Rescigno and Costa, {B. Sales} and S. Sanfilippo and C. Sunny and Y. Suvorov and R. Tartaglia and G. Testera and A. Tricomi and M. Wada and Y. Wang and R. Wojaczyn and P. Zakhary",

year = "2024",

month = apr,

day = "17",

doi = "10.1393/ncc/i2024-24130-0",

language = "English",

}

RIS

TY - CONF

T1 - The ReD experiment for low-energy nuclear recoils in a liquid argon TPC

AU - Pino, N.

AU - Ahmad, I.

AU - Albergo, S.

AU - Albuquerque, I.

AU - Corona, M. Atzori

AU - Ave, M.

AU - Bottino, B.

AU - Cadeddu, M.

AU - Caminata, A.

AU - Canci, N.

AU - Cesarano, R.

AU - Davini, S.

AU - Dias, L. K.S.

AU - Di Capua, F.

AU - Dolganov, G.

AU - Fiorillo, G.

AU - Franco, D.

AU - Gulino, M.

AU - Kemmerich, N.

AU - Kimura, M.

AU - Kuźniak, M.

AU - La Commara, M.

AU - Matteucci, G.

AU - Santos, E. Moura

AU - Oleynikov, V.

AU - Pandola, L.

AU - Varona, R. Perez

AU - Puglia, S. M.R.

AU - Rescigno, M.

AU - Costa, B. Sales

AU - Sanfilippo, S.

AU - Sunny, C.

AU - Suvorov, Y.

AU - Tartaglia, R.

AU - Testera, G.

AU - Tricomi, A.

AU - Wada, M.

AU - Wang, Y.

AU - Wojaczyn, R.

AU - Zakhary, P.

PY - 2024/4/17

Y1 - 2024/4/17

N2 - Time Projection Chambers filled with Ar in double phase are largely employed in the direct detection of Weakly Interacting Massive Particles (WIMPs) as Dark Matter candidates. Models predict WIMP with a mass at the electroweak scale, so the expected energy of the Ar nuclear recoil after a WIMP-induced scattering is in the range of tens of keV. However, if these particles had mass at the GeV/c2 scale, the deposited energy would drop to a few keV. In this scenario, WIMP direct detection will become challenging but still possible in these detectors, as proved by recent studies on the data collected by DarkSide-50. Since the future generation of multi-tonnes experiments aims to be sensitive also at this low-mass scale, the REcoil Directionality (ReD) experiment underwent a campaign to investigate the ionization response of LAr down to a few keV.

AB - Time Projection Chambers filled with Ar in double phase are largely employed in the direct detection of Weakly Interacting Massive Particles (WIMPs) as Dark Matter candidates. Models predict WIMP with a mass at the electroweak scale, so the expected energy of the Ar nuclear recoil after a WIMP-induced scattering is in the range of tens of keV. However, if these particles had mass at the GeV/c2 scale, the deposited energy would drop to a few keV. In this scenario, WIMP direct detection will become challenging but still possible in these detectors, as proved by recent studies on the data collected by DarkSide-50. Since the future generation of multi-tonnes experiments aims to be sensitive also at this low-mass scale, the REcoil Directionality (ReD) experiment underwent a campaign to investigate the ionization response of LAr down to a few keV.

UR - https://www.webofscience.com/wos/woscc/full-record/WOS:001198718400017

UR - https://www.mendeley.com/catalogue/ff7a3664-bf0d-3934-9143-71e8337fa7c7/

U2 - 10.1393/ncc/i2024-24130-0

DO - 10.1393/ncc/i2024-24130-0

M3 - Paper

ER -

ID: 61255869