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Cosmogenic activation of silicon

The production of 3H, 7Be, and 22Na by interactions of cosmic-ray particles with silicon can produce radioactive backgrounds in detectors used to search for rare events. Through controlled irradiation of silicon CCDs and wafers with a neutron beam that mimics the cosmic-ray neutron spectrum, followe...

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Published in:	Physical review. D 2020-11, Vol.102 (10), p.1, Article 102006
Main Authors:	Saldanha, R., Thomas, R., Tsang, R. H. M., Chavarria, A. E., Bunker, R., Burnett, J. L., Elliott, S. R., Matalon, A., Mitra, P., Piers, A., Privitera, P., Ramanathan, K., Smida, R.
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Subjects:	astroparticle detectors ATOMIC AND MOLECULAR PHYSICS Atoms & subatomic particles Cosmic rays Detectors Neutron beams Neutrons nucleon induced nuclear reactions particle dark matter Particle physics PHYSICS OF ELEMENTARY PARTICLES AND FIELDS radiation detectors Sea level Silicon Sodium 22
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creator	Saldanha, R. Thomas, R. Tsang, R. H. M. Chavarria, A. E. Bunker, R. Burnett, J. L. Elliott, S. R. Matalon, A. Mitra, P. Piers, A. Privitera, P. Ramanathan, K. Smida, R.
description	The production of 3H, 7Be, and 22Na by interactions of cosmic-ray particles with silicon can produce radioactive backgrounds in detectors used to search for rare events. Through controlled irradiation of silicon CCDs and wafers with a neutron beam that mimics the cosmic-ray neutron spectrum, followed by direct counting, we determined that the production rate from cosmic-ray neutrons at sea level is ( 112 ± 24 ) atoms / ( kg day ) for 3H, ( 8.1 ± 1.9 ) atoms / ( kg day ) for 7Be, and ( 43.0 ± 7.2 ) atoms / ( kg day ) for 22Na. Complementing these results with the current best estimates of activation cross sections for cosmic-ray particles other than neutrons, we obtain a total sea-level cosmic-ray production rate of ( 124 ± 25 ) atoms / ( kg day ) for 3H, ( 9.4 ± 2.0 ) atoms / ( kg day ) for 7Be, and ( 49.6 ± 7.4 ) atoms / ( kg day ) for 22Na. These measurements will help constrain background estimates and determine the maximum time that silicon-based detectors can remain unshielded during detector fabrication before cosmogenic backgrounds impact the sensitivity of next-generation rare-event searches.
doi_str_mv	10.1103/PhysRevD.102.102006
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H. M. ; Chavarria, A. E. ; Bunker, R. ; Burnett, J. L. ; Elliott, S. R. ; Matalon, A. ; Mitra, P. ; Piers, A. ; Privitera, P. ; Ramanathan, K. ; Smida, R.</creator><creatorcontrib>Saldanha, R. ; Thomas, R. ; Tsang, R. H. M. ; Chavarria, A. E. ; Bunker, R. ; Burnett, J. L. ; Elliott, S. R. ; Matalon, A. ; Mitra, P. ; Piers, A. ; Privitera, P. ; Ramanathan, K. ; Smida, R. ; Los Alamos National Lab. (LANL), Los Alamos, NM (United States) ; Los Alamos, NM (United States) ; Pacific Northwest National Lab. (PNNL), Richland, WA (United States)</creatorcontrib><description>The production of 3H, 7Be, and 22Na by interactions of cosmic-ray particles with silicon can produce radioactive backgrounds in detectors used to search for rare events. 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subjects	astroparticle detectors ATOMIC AND MOLECULAR PHYSICS Atoms & subatomic particles Cosmic rays Detectors Neutron beams Neutrons nucleon induced nuclear reactions particle dark matter Particle physics PHYSICS OF ELEMENTARY PARTICLES AND FIELDS radiation detectors Sea level Silicon Sodium 22
title	Cosmogenic activation of silicon
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