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Study of cosmogenic activation above ground for the DarkSide-20k experiment. / DarkSide-20k Collaboration; Олейников, Владислав Петрович.

In: Astroparticle Physics, Vol. 152, 102878, 10.2023.

Research output: Contribution to journalArticlepeer-review

Harvard

DarkSide-20k Collaboration & Олейников, ВП 2023, 'Study of cosmogenic activation above ground for the DarkSide-20k experiment', Astroparticle Physics, vol. 152, 102878. https://doi.org/10.1016/j.astropartphys.2023.102878

APA

DarkSide-20k Collaboration, & Олейников, В. П. (2023). Study of cosmogenic activation above ground for the DarkSide-20k experiment. Astroparticle Physics, 152, [102878]. https://doi.org/10.1016/j.astropartphys.2023.102878

Vancouver

DarkSide-20k Collaboration, Олейников ВП. Study of cosmogenic activation above ground for the DarkSide-20k experiment. Astroparticle Physics. 2023 Oct;152:102878. doi: 10.1016/j.astropartphys.2023.102878

Author

DarkSide-20k Collaboration ; Олейников, Владислав Петрович. / Study of cosmogenic activation above ground for the DarkSide-20k experiment. In: Astroparticle Physics. 2023 ; Vol. 152.

BibTeX

@article{be54cd3c7b494ee9ab8db22a14ad5759,
title = "Study of cosmogenic activation above ground for the DarkSide-20k experiment",
abstract = "The activation of materials due to the exposure to cosmic rays may become an important background source for experiments investigating rare event phenomena. DarkSide-20k is a direct detection experiment for galactic dark matter particles, using a two-phase liquid argon time projection chamber filled with 49.7 tonnes (active mass) of Underground Argon (UAr) depleted in 39Ar. Here, the cosmogenic activity of relevant long-lived radioisotopes induced in the argon and other massive components of the set-up has been estimated; production of 120 t of radiopure UAr is foreseen. The expected exposure above ground and production rates, either measured or calculated, have been considered. From the simulated counting rates in the detector due to cosmogenic isotopes, it is concluded that activation in copper and stainless steel is not problematic. Activation of titanium, considered in early designs but not used in the final design, is discussed. The activity of 39Ar induced during extraction, purification and transport on surface, in baseline conditions, is evaluated to be 2.8% of the activity measured in UAr from the same source, and thus considered acceptable. Other products in the UAr such as 37Ar and 3H are shown to not be relevant due to short half-life and assumed purification methods.",
author = "{DarkSide-20k Collaboration} and E. Aaron and P. Agnes and I. Ahmad and S. Albergo and I.F.M. Albuquerque and T. Alexander and A.K. Alton and P. Amaudruz and {Atzori Corona}, M. and M. Ave and I.Ch. Avetisov and O. Azzolini and H.O. Back and Z. Balmforth and A. Barrado-Olmedo and P. Barrillon and A. Basco and G. Batignani and V. Bocci and W.M. Bonivento and B. Bottino and M.G. Boulay and J. Busto and M. Cadeddu and A. Caminata and N. Canci and A. Capra and S. Caprioli and M. Caravati and N. Cargioli and M. Carlini and P. Castello and P. Cavalcante and S. Cavuoti and S. Cebrian and {Cela Ruiz}, J.M. and S. Chashin and A. Chepurnov and E. Chyhyrynets and L. Cifarelli and D. Cintas and M. Citterio and B. Cleveland and V. Cocco and D. Colaiuda and {Conde Vilda}, E. and L. Consiglio and S. Copello and G. Covone and M. Czubak and Олейников, {Владислав Петрович}",
note = "Acknowledgments: This report is based upon work supported by FSC 2014–2020 - Patto per lo Sviluppo, Regione Sardegna, Italy, the U. S. National Science Foundation (NSF) (Grants No. PHY-0919363, No. PHY-1004054, No. PHY-1004072, No. PHY-1242585, No. PHY-1314483, No. PHY- 1314507, associated collaborative grants, No. PHY-1211308, No. PHY-1314501, and No. PHY-1455351, as well as Major Research Instrumentation Grant No. MRI-1429544), the Italian Istituto Nazionale di Fisica Nucleare (Grants from Italian Ministero dell{\textquoteright}Istruzione, Universit{\`a}, e Ricerca Progetto Premiale 2013 and Commissione Scientific Nazionale II), the Natural Sciences and Engineering Research Council of Canada, SNOLAB, and the Arthur B. McDonald Canadian Astroparticle Physics Research Institute. We acknowledge the financial support by LabEx UnivEarthS (ANR-10-LABX-0023 and ANR18-IDEX-0001), the S{\~a}o Paulo Research Foundation (Grant FAPESP-2017/26238-4), Chinese Academy of Sciences (113111KYSB20210030) and National Natural Science Foundation of China (12020101004). The authors were also supported by the Spanish Ministry of Science and Innovation (MICINN) through the grant PID2019-109374GBI00, the “Atraccion de Talento” Grant 2018-T2/ TIC-10494, the Polish NCN, Grant No. UMO- 2019/ 33/ B/ ST2/ 02884, the Polish Ministry of Science and Higher Education, MNi-SW, grant number 6811/IA/SP/2018, the International Research Agenda Programme AstroCeNT, Grant No. MAB-/2018/7, funded by the Foundation for Polish Science from the European Regional Development Fund, the European Union{\textquoteright}s Horizon 2020 research and innovation program under grant agreement No 952480 (DarkWave), the Science and Technology Facilities Council, part of the United Kingdom Research and Innovation, and The Royal Society (United Kingdom), and IN2P3-COPIN consortium (Grant No. 20-152). I.F.M.A is supported in part by Conselho Nacional de Desenvolvimento Cient{\'i}fico e Tecnol{\'o}gico (CNPq). We also wish to acknowledge the support from Pacific Northwest National Laboratory, which is operated by Battelle for the U.S. Department of Energy under Contract No. DE–AC05-76RL01830. This research was supported by the Fermi National Accelerator Laboratory (Fermilab), a U.S. Department of Energy, Office of Science, HEP User Facility. Fermilab is managed by Fermi Research Alliance, LLC - (FRA) , acting under Contract No. DE-AC02-07CH11359.",
year = "2023",
month = oct,
doi = "10.1016/j.astropartphys.2023.102878",
language = "English",
volume = "152",
journal = "Astroparticle Physics",
issn = "0927-6505",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Study of cosmogenic activation above ground for the DarkSide-20k experiment

AU - DarkSide-20k Collaboration

AU - Aaron, E.

AU - Agnes, P.

AU - Ahmad, I.

AU - Albergo, S.

AU - Albuquerque, I.F.M.

AU - Alexander, T.

AU - Alton, A.K.

AU - Amaudruz, P.

AU - Atzori Corona, M.

AU - Ave, M.

AU - Avetisov, I.Ch.

AU - Azzolini, O.

AU - Back, H.O.

AU - Balmforth, Z.

AU - Barrado-Olmedo, A.

AU - Barrillon, P.

AU - Basco, A.

AU - Batignani, G.

AU - Bocci, V.

AU - Bonivento, W.M.

AU - Bottino, B.

AU - Boulay, M.G.

AU - Busto, J.

AU - Cadeddu, M.

AU - Caminata, A.

AU - Canci, N.

AU - Capra, A.

AU - Caprioli, S.

AU - Caravati, M.

AU - Cargioli, N.

AU - Carlini, M.

AU - Castello, P.

AU - Cavalcante, P.

AU - Cavuoti, S.

AU - Cebrian, S.

AU - Cela Ruiz, J.M.

AU - Chashin, S.

AU - Chepurnov, A.

AU - Chyhyrynets, E.

AU - Cifarelli, L.

AU - Cintas, D.

AU - Citterio, M.

AU - Cleveland, B.

AU - Cocco, V.

AU - Colaiuda, D.

AU - Conde Vilda, E.

AU - Consiglio, L.

AU - Copello, S.

AU - Covone, G.

AU - Czubak, M.

AU - Олейников, Владислав Петрович

N1 - Acknowledgments: This report is based upon work supported by FSC 2014–2020 - Patto per lo Sviluppo, Regione Sardegna, Italy, the U. S. National Science Foundation (NSF) (Grants No. PHY-0919363, No. PHY-1004054, No. PHY-1004072, No. PHY-1242585, No. PHY-1314483, No. PHY- 1314507, associated collaborative grants, No. PHY-1211308, No. PHY-1314501, and No. PHY-1455351, as well as Major Research Instrumentation Grant No. MRI-1429544), the Italian Istituto Nazionale di Fisica Nucleare (Grants from Italian Ministero dell’Istruzione, Università, e Ricerca Progetto Premiale 2013 and Commissione Scientific Nazionale II), the Natural Sciences and Engineering Research Council of Canada, SNOLAB, and the Arthur B. McDonald Canadian Astroparticle Physics Research Institute. We acknowledge the financial support by LabEx UnivEarthS (ANR-10-LABX-0023 and ANR18-IDEX-0001), the São Paulo Research Foundation (Grant FAPESP-2017/26238-4), Chinese Academy of Sciences (113111KYSB20210030) and National Natural Science Foundation of China (12020101004). The authors were also supported by the Spanish Ministry of Science and Innovation (MICINN) through the grant PID2019-109374GBI00, the “Atraccion de Talento” Grant 2018-T2/ TIC-10494, the Polish NCN, Grant No. UMO- 2019/ 33/ B/ ST2/ 02884, the Polish Ministry of Science and Higher Education, MNi-SW, grant number 6811/IA/SP/2018, the International Research Agenda Programme AstroCeNT, Grant No. MAB-/2018/7, funded by the Foundation for Polish Science from the European Regional Development Fund, the European Union’s Horizon 2020 research and innovation program under grant agreement No 952480 (DarkWave), the Science and Technology Facilities Council, part of the United Kingdom Research and Innovation, and The Royal Society (United Kingdom), and IN2P3-COPIN consortium (Grant No. 20-152). I.F.M.A is supported in part by Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq). We also wish to acknowledge the support from Pacific Northwest National Laboratory, which is operated by Battelle for the U.S. Department of Energy under Contract No. DE–AC05-76RL01830. This research was supported by the Fermi National Accelerator Laboratory (Fermilab), a U.S. Department of Energy, Office of Science, HEP User Facility. Fermilab is managed by Fermi Research Alliance, LLC - (FRA) , acting under Contract No. DE-AC02-07CH11359.

PY - 2023/10

Y1 - 2023/10

N2 - The activation of materials due to the exposure to cosmic rays may become an important background source for experiments investigating rare event phenomena. DarkSide-20k is a direct detection experiment for galactic dark matter particles, using a two-phase liquid argon time projection chamber filled with 49.7 tonnes (active mass) of Underground Argon (UAr) depleted in 39Ar. Here, the cosmogenic activity of relevant long-lived radioisotopes induced in the argon and other massive components of the set-up has been estimated; production of 120 t of radiopure UAr is foreseen. The expected exposure above ground and production rates, either measured or calculated, have been considered. From the simulated counting rates in the detector due to cosmogenic isotopes, it is concluded that activation in copper and stainless steel is not problematic. Activation of titanium, considered in early designs but not used in the final design, is discussed. The activity of 39Ar induced during extraction, purification and transport on surface, in baseline conditions, is evaluated to be 2.8% of the activity measured in UAr from the same source, and thus considered acceptable. Other products in the UAr such as 37Ar and 3H are shown to not be relevant due to short half-life and assumed purification methods.

AB - The activation of materials due to the exposure to cosmic rays may become an important background source for experiments investigating rare event phenomena. DarkSide-20k is a direct detection experiment for galactic dark matter particles, using a two-phase liquid argon time projection chamber filled with 49.7 tonnes (active mass) of Underground Argon (UAr) depleted in 39Ar. Here, the cosmogenic activity of relevant long-lived radioisotopes induced in the argon and other massive components of the set-up has been estimated; production of 120 t of radiopure UAr is foreseen. The expected exposure above ground and production rates, either measured or calculated, have been considered. From the simulated counting rates in the detector due to cosmogenic isotopes, it is concluded that activation in copper and stainless steel is not problematic. Activation of titanium, considered in early designs but not used in the final design, is discussed. The activity of 39Ar induced during extraction, purification and transport on surface, in baseline conditions, is evaluated to be 2.8% of the activity measured in UAr from the same source, and thus considered acceptable. Other products in the UAr such as 37Ar and 3H are shown to not be relevant due to short half-life and assumed purification methods.

UR - https://www.scopus.com/record/display.uri?eid=2-s2.0-85164302182&origin=inward&txGid=efbc4d12a88f91862d94d93850382948

UR - https://www.mendeley.com/catalogue/c140f4af-3f44-325c-84b9-d2911b09a7b7/

U2 - 10.1016/j.astropartphys.2023.102878

DO - 10.1016/j.astropartphys.2023.102878

M3 - Article

VL - 152

JO - Astroparticle Physics

JF - Astroparticle Physics

SN - 0927-6505

M1 - 102878

ER -

ID: 53977271