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Removal of spallation-induced tritium from silicon through diffusion

Removal of spallation-induced tritium from silicon through diffusion
Removal of spallation-induced tritium from silicon through diffusion
Tritium, predominantly produced through spallation reactions caused by cosmic ray interactions, is a significant radioactive background for silicon-based rare event detection experiments, such as dark matter searches. We have investigated the feasibility of removing cosmogenic tritium from high-purity silicon intended for use in low-background experiments. We demonstrate that significant tritium removal is possible through diffusion by subjecting silicon to high-temperature (> 400C) baking. Using an analytical model for the de-trapping and diffusion of tritium in silicon, our measurements indicate that cosmogenic tritium diffusion constants are comparable to previous measurements of thermally-introduced tritium, with complete de-trapping and removal achievable above 750C. This approach has the potential to alleviate the stringent constraints of cosmic ray exposure prior to device fabrication and significantly reduce the cosmogenic tritium backgrounds of silicon-based detectors for next-generation rare event searches.
2470-0037
Saldanha, R.
3b713a06-6731-41bd-813d-5ba0d7be6644
Reading, D.
e875ad0e-0316-469b-9e82-f93f48ef4734
Warwick, P.E.
f2675d83-eee2-40c5-b53d-fbe437f401ef
Chavarria, A.E.
9be27a34-5bab-44a4-aeb1-e15ebb8ab0b3
Loer, B.
53312171-cc71-4dff-8870-10b018ea0518
Mitra, P.
9dcdb2d3-af70-4ee8-b16c-a6a4a6b4a452
Pagani, L.
f3af7556-4637-41a1-b4e9-d45e989888d0
Privitera, P.
b25e21a0-a141-442e-aca5-a5f426ca62e4
Saldanha, R.
3b713a06-6731-41bd-813d-5ba0d7be6644
Reading, D.
e875ad0e-0316-469b-9e82-f93f48ef4734
Warwick, P.E.
f2675d83-eee2-40c5-b53d-fbe437f401ef
Chavarria, A.E.
9be27a34-5bab-44a4-aeb1-e15ebb8ab0b3
Loer, B.
53312171-cc71-4dff-8870-10b018ea0518
Mitra, P.
9dcdb2d3-af70-4ee8-b16c-a6a4a6b4a452
Pagani, L.
f3af7556-4637-41a1-b4e9-d45e989888d0
Privitera, P.
b25e21a0-a141-442e-aca5-a5f426ca62e4

Saldanha, R., Reading, D., Warwick, P.E., Chavarria, A.E., Loer, B., Mitra, P., Pagani, L. and Privitera, P. (2025) Removal of spallation-induced tritium from silicon through diffusion. Physical Review D, 112. (doi:10.48550/arXiv.2506.06568).

Record type: Article

Abstract

Tritium, predominantly produced through spallation reactions caused by cosmic ray interactions, is a significant radioactive background for silicon-based rare event detection experiments, such as dark matter searches. We have investigated the feasibility of removing cosmogenic tritium from high-purity silicon intended for use in low-background experiments. We demonstrate that significant tritium removal is possible through diffusion by subjecting silicon to high-temperature (> 400C) baking. Using an analytical model for the de-trapping and diffusion of tritium in silicon, our measurements indicate that cosmogenic tritium diffusion constants are comparable to previous measurements of thermally-introduced tritium, with complete de-trapping and removal achievable above 750C. This approach has the potential to alleviate the stringent constraints of cosmic ray exposure prior to device fabrication and significantly reduce the cosmogenic tritium backgrounds of silicon-based detectors for next-generation rare event searches.

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Saldanha et al 2025 - 3H removal silicon wafers - Author's Original
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Saldanha et al 2025 - Tritium_Removal_From_Silicon_AAM - Accepted Manuscript
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More information

Submitted date: 6 June 2025
e-pub ahead of print date: 26 September 2025
Published date: 26 September 2025

Identifiers

Local EPrints ID: 503301
URI: http://eprints.soton.ac.uk/id/eprint/503301
DOI: doi:10.48550/arXiv.2506.06568
ISSN: 2470-0037
PURE UUID: f5960374-ac62-44b5-a628-10380a8289d7
ORCID for D. Reading: ORCID iD orcid.org/0000-0002-6697-8525
ORCID for P.E. Warwick: ORCID iD orcid.org/0000-0001-8774-5125

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Date deposited: 29 Jul 2025 16:31
Last modified: 22 Oct 2025 01:35

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Contributors

Author: R. Saldanha
Author: D. Reading ORCID iD
Author: P.E. Warwick ORCID iD
Author: A.E. Chavarria
Author: B. Loer
Author: P. Mitra
Author: L. Pagani
Author: P. Privitera

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