Preliminary Insights Into the Feasibility of Determining the Purification Date of Enriched Uranium by Direct Measurement of the 230Th/234U Ratio Using an All-Faraday Detector Configuration on the Neoma MC-ICP-MS

N.  Alex Zirakparvar; Benjamin T Manard; Daniel R. Dunlap; Matt Darnell; Debra Bostick; Brian Ticknor; Cole R Hexel

doi:10.1002/rcm.10078

Preliminary Insights Into the Feasibility of Determining the Purification Date of Enriched Uranium by Direct Measurement of the ²³⁰Th/²³⁴U Ratio Using an All-Faraday Detector Configuration on the Neoma MC-ICP-MS

Research output: Contribution to journal › Article › peer-review

Abstract

Rationale: Mass spectrometric measurement of the ²³⁰Th^/234U ratio to calculate the purification age of enriched uranium is typically conducted via a combination of ion counters and faraday detectors, thus requiring an inter-detector calibration scheme. Our aim is to understand whether the pursuit of a simplified measurement scheme involving only faraday detectors is feasible. Methods: We investigate the possibility of determining U-Th model ages for two enriched uranium standards (NBL U630 and U850) by direct measurement of the ²³⁰Th/²³⁴U ratio (without chromatographic separation or isotope dilution) on a ThermoFisher Scientific Neoma MC-ICP-MS utilizing both solution and laser ablation (LA)-based sampling techniques and an all-faraday detector configuration. Results: For the solution mode analyses conducted on aliquots containing sub μg/mL total U, we produce composite average ²³⁰Th/²³⁴U model dates of May 19, 1988 (± 351 days), and March 26, 1961 (± 2.5 years) using the directly measured ²³⁰Th/²³⁴U ratios for the NBL U630 and U850 uranium standards, which have certified purification dates of June 6, 1988 (± 190 days), and December 31, 1957 (± 36.5 days), respectively. The ages produced by LA-based sampling of dried residues of the same standards deposited onto cotton TexWipes are less accurate and of poorer precision (June 23, 2004 ± 8.7 years for U630 and December 21, 1965 ± 7.9 years for U850) but still yield meaningful information in regards to the purification date. Conclusions: We believe that further refinement of the all faraday detector measurement approach to include development of a more robust Th/U relative sensitivity factor determination, signal cutoff selection, and data processing protocols will allow for this approach to be confidently applied to enriched uranium materials with unknown purification histories. Potential advantages of the method include the reduced sample handling and infrastructure requirements as well as the ability to simultaneously generate a broad picture of the uranium isotopic composition in tandem with the U-Th age determination.

Original language	English
Article number	e10078
Journal	Rapid Communications in Mass Spectrometry
Volume	39
Issue number	17
DOIs	https://doi.org/10.1002/rcm.10078
State	Published - Sep 15 2025

Funding

This manuscript has been authored by UT‐Battelle, LLC, under contract DE‐AC05‐00OR22725 with the US Department of Energy (DOE). The US government and the publisher, by accepting the article for publication, acknowledges that the US government retains a nonexclusive, paid‐up, irrevocable, worldwide license to publish or reproduce the published form of this manuscript, or allow others to do so, for US government purposes. DOE will provide public access to these results of federally sponsored research in accordance with the DOE Public Access Plan ( https://www.energy.gov/doe‐public‐access‐plan ). Funding: Funding: This manuscript has been authored by UT-Battelle, LLC, under contract DE-AC05-00OR22725 with the US Department of Energy (DOE). The US government and the publisher, by accepting the article for publication, acknowledges that the US government retains a nonexclusive, paid-up, irrevocable, worldwide license to publish or reproduce the published form of this manuscript, or allow others to do so, for US government purposes. DOE will provide public access to these results of federally sponsored research in accordance with the DOE Public Access Plan (https://www.energy.gov/doe-public-access-plan).

Keywords

dating
faraday detector
laser ablation
mass spectrometry
thorium
uranium

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Zirakparvar, N. A., Manard, BT., Dunlap, D. R., Darnell, M., Bostick, D., Ticknor, B., & Hexel, CR. (2025). Preliminary Insights Into the Feasibility of Determining the Purification Date of Enriched Uranium by Direct Measurement of the ²³⁰Th/²³⁴U Ratio Using an All-Faraday Detector Configuration on the Neoma MC-ICP-MS. Rapid Communications in Mass Spectrometry, 39(17), Article e10078. https://doi.org/10.1002/rcm.10078

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title = "Preliminary Insights Into the Feasibility of Determining the Purification Date of Enriched Uranium by Direct Measurement of the 230Th/234U Ratio Using an All-Faraday Detector Configuration on the Neoma MC-ICP-MS",

abstract = "Rationale: Mass spectrometric measurement of the 230Th/234U ratio to calculate the purification age of enriched uranium is typically conducted via a combination of ion counters and faraday detectors, thus requiring an inter-detector calibration scheme. Our aim is to understand whether the pursuit of a simplified measurement scheme involving only faraday detectors is feasible. Methods: We investigate the possibility of determining U-Th model ages for two enriched uranium standards (NBL U630 and U850) by direct measurement of the 230Th/234U ratio (without chromatographic separation or isotope dilution) on a ThermoFisher Scientific Neoma MC-ICP-MS utilizing both solution and laser ablation (LA)-based sampling techniques and an all-faraday detector configuration. Results: For the solution mode analyses conducted on aliquots containing sub μg/mL total U, we produce composite average 230Th/234U model dates of May 19, 1988 (± 351 days), and March 26, 1961 (± 2.5 years) using the directly measured 230Th/234U ratios for the NBL U630 and U850 uranium standards, which have certified purification dates of June 6, 1988 (± 190 days), and December 31, 1957 (± 36.5 days), respectively. The ages produced by LA-based sampling of dried residues of the same standards deposited onto cotton TexWipes are less accurate and of poorer precision (June 23, 2004 ± 8.7 years for U630 and December 21, 1965 ± 7.9 years for U850) but still yield meaningful information in regards to the purification date. Conclusions: We believe that further refinement of the all faraday detector measurement approach to include development of a more robust Th/U relative sensitivity factor determination, signal cutoff selection, and data processing protocols will allow for this approach to be confidently applied to enriched uranium materials with unknown purification histories. Potential advantages of the method include the reduced sample handling and infrastructure requirements as well as the ability to simultaneously generate a broad picture of the uranium isotopic composition in tandem with the U-Th age determination.",

keywords = "dating, faraday detector, laser ablation, mass spectrometry, thorium, uranium",

author = "Zirakparvar, \{N. Alex\} and Benjamin T Manard and Dunlap, \{Daniel R.\} and Matt Darnell and Debra Bostick and Brian Ticknor and Cole R Hexel",

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Zirakparvar, NA , Manard, BT, Dunlap, DR, Darnell, M, Bostick, D, Ticknor, B & Hexel, CR 2025, 'Preliminary Insights Into the Feasibility of Determining the Purification Date of Enriched Uranium by Direct Measurement of the ²³⁰Th/²³⁴U Ratio Using an All-Faraday Detector Configuration on the Neoma MC-ICP-MS', Rapid Communications in Mass Spectrometry, vol. 39, no. 17, e10078. https://doi.org/10.1002/rcm.10078

Preliminary Insights Into the Feasibility of Determining the Purification Date of Enriched Uranium by Direct Measurement of the ²³⁰Th/²³⁴U Ratio Using an All-Faraday Detector Configuration on the Neoma MC-ICP-MS. / Zirakparvar, N. Alex ; Manard, Benjamin T; Dunlap, Daniel R. et al.
In: Rapid Communications in Mass Spectrometry, Vol. 39, No. 17, e10078, 15.09.2025.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Preliminary Insights Into the Feasibility of Determining the Purification Date of Enriched Uranium by Direct Measurement of the 230Th/234U Ratio Using an All-Faraday Detector Configuration on the Neoma MC-ICP-MS

AU - Zirakparvar, N. Alex

AU - Manard, Benjamin T

AU - Dunlap, Daniel R.

AU - Darnell, Matt

AU - Bostick, Debra

AU - Ticknor, Brian

AU - Hexel, Cole R

PY - 2025/9/15

Y1 - 2025/9/15

N2 - Rationale: Mass spectrometric measurement of the 230Th/234U ratio to calculate the purification age of enriched uranium is typically conducted via a combination of ion counters and faraday detectors, thus requiring an inter-detector calibration scheme. Our aim is to understand whether the pursuit of a simplified measurement scheme involving only faraday detectors is feasible. Methods: We investigate the possibility of determining U-Th model ages for two enriched uranium standards (NBL U630 and U850) by direct measurement of the 230Th/234U ratio (without chromatographic separation or isotope dilution) on a ThermoFisher Scientific Neoma MC-ICP-MS utilizing both solution and laser ablation (LA)-based sampling techniques and an all-faraday detector configuration. Results: For the solution mode analyses conducted on aliquots containing sub μg/mL total U, we produce composite average 230Th/234U model dates of May 19, 1988 (± 351 days), and March 26, 1961 (± 2.5 years) using the directly measured 230Th/234U ratios for the NBL U630 and U850 uranium standards, which have certified purification dates of June 6, 1988 (± 190 days), and December 31, 1957 (± 36.5 days), respectively. The ages produced by LA-based sampling of dried residues of the same standards deposited onto cotton TexWipes are less accurate and of poorer precision (June 23, 2004 ± 8.7 years for U630 and December 21, 1965 ± 7.9 years for U850) but still yield meaningful information in regards to the purification date. Conclusions: We believe that further refinement of the all faraday detector measurement approach to include development of a more robust Th/U relative sensitivity factor determination, signal cutoff selection, and data processing protocols will allow for this approach to be confidently applied to enriched uranium materials with unknown purification histories. Potential advantages of the method include the reduced sample handling and infrastructure requirements as well as the ability to simultaneously generate a broad picture of the uranium isotopic composition in tandem with the U-Th age determination.

AB - Rationale: Mass spectrometric measurement of the 230Th/234U ratio to calculate the purification age of enriched uranium is typically conducted via a combination of ion counters and faraday detectors, thus requiring an inter-detector calibration scheme. Our aim is to understand whether the pursuit of a simplified measurement scheme involving only faraday detectors is feasible. Methods: We investigate the possibility of determining U-Th model ages for two enriched uranium standards (NBL U630 and U850) by direct measurement of the 230Th/234U ratio (without chromatographic separation or isotope dilution) on a ThermoFisher Scientific Neoma MC-ICP-MS utilizing both solution and laser ablation (LA)-based sampling techniques and an all-faraday detector configuration. Results: For the solution mode analyses conducted on aliquots containing sub μg/mL total U, we produce composite average 230Th/234U model dates of May 19, 1988 (± 351 days), and March 26, 1961 (± 2.5 years) using the directly measured 230Th/234U ratios for the NBL U630 and U850 uranium standards, which have certified purification dates of June 6, 1988 (± 190 days), and December 31, 1957 (± 36.5 days), respectively. The ages produced by LA-based sampling of dried residues of the same standards deposited onto cotton TexWipes are less accurate and of poorer precision (June 23, 2004 ± 8.7 years for U630 and December 21, 1965 ± 7.9 years for U850) but still yield meaningful information in regards to the purification date. Conclusions: We believe that further refinement of the all faraday detector measurement approach to include development of a more robust Th/U relative sensitivity factor determination, signal cutoff selection, and data processing protocols will allow for this approach to be confidently applied to enriched uranium materials with unknown purification histories. Potential advantages of the method include the reduced sample handling and infrastructure requirements as well as the ability to simultaneously generate a broad picture of the uranium isotopic composition in tandem with the U-Th age determination.

KW - dating

KW - faraday detector

KW - laser ablation

KW - mass spectrometry

KW - thorium

KW - uranium

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Zirakparvar NA , Manard BT, Dunlap DR, Darnell M, Bostick D, Ticknor B et al. Preliminary Insights Into the Feasibility of Determining the Purification Date of Enriched Uranium by Direct Measurement of the ²³⁰Th/²³⁴U Ratio Using an All-Faraday Detector Configuration on the Neoma MC-ICP-MS. Rapid Communications in Mass Spectrometry. 2025 Sep 15;39(17):e10078. doi: 10.1002/rcm.10078