SABRE and the Stawell Underground Physics Laboratory: Dark Matter Research at the Australian National University

SABRE and the Stawell Underground Physics Laboratory: Dark Matter Research at the Australian National University

The direct detection of dark matter is a key problem in astroparticle physics that generally requires the use of deep-underground laboratories for a low-background environment where the rare signals from dark matter interactions can be observed. This work reports on the Stawell Underground Physics L...

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Veröffentlicht in:arXiv.org 2020-08
Hauptverfasser: Bignell, Lindsey J, Barberio, Elisabetta, Froehlich, Michaela B, Lane, Gregory J, Lennon, Owen, Mahmood, Ibtihal, Nuti, Francesco, Rahman, Md Shahinur, Simenel, Cederic, Spinks, Nathan J, Stuchbery, Andrew E, Timmers, Heiko, Wallner, Anton, Wang, Lei, Wu, Jo, Yi Yi Zhong
Format: Artikel
Sprache:eng
Schlagworte:
Dark matter
Laboratories
Physics
Physics - Instrumentation and Detectors
Scintillation counters
Southern Hemisphere
Underground construction
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Zusammenfassung:The direct detection of dark matter is a key problem in astroparticle physics that generally requires the use of deep-underground laboratories for a low-background environment where the rare signals from dark matter interactions can be observed. This work reports on the Stawell Underground Physics Laboratory - currently under construction and the first such laboratory in the Southern Hemisphere - and the associated research program. A particular focus will be given to ANU's contribution to SABRE, a NaI:Tl dark matter direct detection experiment that aims to confirm or refute the long-standing DAMA result. Preliminary measurements of the NaI:Tl quenching factor and characterisation of the SABRE liquid scintillator veto are reported.
ISSN:2331-8422
DOI:10.48550/arxiv.2008.01373