Experimental evaluation of the detection methods of thermal ionization mass spectrometry for isotopic analysis of ultra-trace level uranium

Thermal ionization mass spectrometry (TIMS)-based isotopic analysis of various amounts of uranium was performed to experimentally evaluate three detection methods: multi-dynamic, dynamic, and static. The analytical performances of the detection methods in terms of accuracy, precision, and measuremen...

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Bibliographic Details
Published in:Microchemical journal 2018-03, Vol.137, p.334-341
Main Authors: Park, Jong-Ho, Jeong, Kahee
Format: Article
Language:English
Subjects:
Detection method
Isotopic analysis
Nuclear safeguards
Particle analysis
TIMS
Uranium
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Summary:Thermal ionization mass spectrometry (TIMS)-based isotopic analysis of various amounts of uranium was performed to experimentally evaluate three detection methods: multi-dynamic, dynamic, and static. The analytical performances of the detection methods in terms of accuracy, precision, and measurement uncertainty were not significantly different for the analysis of 1ng and 100pg of uranium, whereas using ion counters for detecting 238U+ signal intensity slightly enhanced the performance for analyzing 30pg of uranium. The static detection method improves the analysis performance for 5pg and 1pg of uranium due to the higher detection sensitivity of ion counters than faraday cups, elimination of ion signal drift, and increased number of valid data sets in a measurement. The experimental evaluation of the detection methods provides a basis for optimizing the detector configuration of TIMS in terms of the amount of uranium in samples. The uranium isotope ratios in microparticles measured by the static method agreed well with the certified values; this verified the applicability of the static detection method to particle analysis of environmental samples required for nuclear safeguards. •Three detection methods were evaluated for ultra-trace-level uranium analysis.•Thermal ionization mass spectrometry was used for this analysis.•Static detection was best in terms of accuracy, precision, and uncertainty.•It could be applied for particle analysis of environmental samples.
ISSN:0026-265X
1095-9149
DOI:10.1016/j.microc.2017.11.013