Evaluating uranium radiochronometry by single-collector mass spectrometry for nuclear forensics: a multi-instrument investigation

Radiochronometric data, a key signature in evaluating the provenance and process history of nuclear material out of regulatory control, are conventionally acquired via multi-collector mass spectrometry. Here we explore the potential of age-dating by single-collector mass spectrometry. To evaluate mo...

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Veröffentlicht in:	Journal of radioanalytical and nuclear chemistry 2019-12, Vol.322 (3), p.1627-1640
Hauptverfasser:	Treinen, Kerri C., Samperton, Kyle M., Lindvall, Rachel E., Wimpenny, Josh B., Gaffney, Amy M., Bavio, Marta, Baransky, Eva J., Williams, Ross W.
Format:	Artikel
Sprache:	eng
Schlagworte:	Age Chemistry Chemistry and Materials Science Customer relationship management software Diagnostic Radiology Forensic sciences Hadrons Heavy Ions Inorganic Chemistry Ions Mass spectrometers Mass spectrometry Model accuracy Nuclear Chemistry Nuclear Physics Physical Chemistry Plasma physics Scientific imaging Spectrometers Spectroscopy Spectrum analysis Uranium
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container_title	Journal of radioanalytical and nuclear chemistry
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creator	Treinen, Kerri C. Samperton, Kyle M. Lindvall, Rachel E. Wimpenny, Josh B. Gaffney, Amy M. Bavio, Marta Baransky, Eva J. Williams, Ross W.
description	Radiochronometric data, a key signature in evaluating the provenance and process history of nuclear material out of regulatory control, are conventionally acquired via multi-collector mass spectrometry. Here we explore the potential of age-dating by single-collector mass spectrometry. To evaluate model age accuracy/precision across different instrument designs, we performed 230 Th– 234 U and 231 Pa– 235 U radiochronometry of CRM 125-A using two single-collector and one multi-collector plasma source mass spectrometers. Single-collector instruments produce accurate model ages for this uranium standard and thus hold promise for nuclear forensics radiochronometry. Increased acquisition of age information via multiple instrument designs will bolster the global response to nuclear interdictions.
doi_str_mv	10.1007/s10967-019-06832-y
format	Article
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subjects	Age Chemistry Chemistry and Materials Science Customer relationship management software Diagnostic Radiology Forensic sciences Hadrons Heavy Ions Inorganic Chemistry Ions Mass spectrometers Mass spectrometry Model accuracy Nuclear Chemistry Nuclear Physics Physical Chemistry Plasma physics Scientific imaging Spectrometers Spectroscopy Spectrum analysis Uranium
title	Evaluating uranium radiochronometry by single-collector mass spectrometry for nuclear forensics: a multi-instrument investigation
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