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High Accuracy and High Precision Uranium Isotopic Analysis by DRC-ICP-MS

High Accuracy and High Precision Uranium Isotopic Analysis by DRC-ICP-MS. Steve Beres July 2008. Origin of Uranium. Uranium is created in the supernova explosions from large, dying stars. The Uranium on Earth today was created before the solar system was created.

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High Accuracy and High Precision Uranium Isotopic Analysis by DRC-ICP-MS

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  1. High Accuracy and High Precision Uranium Isotopic Analysis by DRC-ICP-MS Steve Beres July 2008

  2. Origin of Uranium • Uranium is created in the supernova explosions from large, dying stars. • The Uranium on Earth today was created before the solar system was created. • The radioactive decay of Uranium and Thorium has kept the Earth’s core hot and allowed life to still exist on our planet. • Without Uranium and Thorium, our planet would be cold today and devoid of life – like Mars. Supernova SN1054 remnant in the Crab Nebula • Since the formation of the Earth, the radioactive decay of Uranium and Thorium has created most of the Pb we find today. • The composition of Pb varies geographically – reflecting the original amount of U/Th in the rocks where the Pb was mined. Page 2

  3. The Element Uranium • Uranium is the heaviest naturally occurring element • has three naturally occurring isotopes • 238U 99.2745% ½ life: 4.51e9 years 12 k Bq/g • 235U0.7200% ½ life: 7.04e8 years 78 k Bq/g • 234U0.0055% ½ life: 2.47e5 years 230 M Bq/g • All radioactive – alpha emitters • An important element in the nuclear fuel cycle • Recycled Uranium (from nuclear power plants) also contains • 236U ½ life: 2.39e7 years 2.3 M Bq/g Note: Bq = Becquerel = 1 disintegration/sec Page 3

  4. Number of Protons Number of Neutrons Uranium Decay • Decay of 238U into 206Pb Page 4

  5. Number of Protons Number of Neutrons Uranium Decay • Decay of 235U into 207Pb Page 5

  6. The isotopic composition of Pb varies Present when the Earth was created Produced from decay of U and Th since the Earth was created The abundance of the four Pb isotopes vary geographically – makes Pb a good forensic tool Page 6

  7. Uranium Enrichment & Depletion • The most important Uranium isotope is 235U • It has the largest thermal neutron cross section [580 barns] • Most easily undergoes fission to release energy • Second only to Plutonium [742 barns], but much safer • Uranium that has < 0.7200% 235U is called depleted uranium • Uranium that has > 0.7200% 235U is called enriched uranium • Important for Nuclear reactors – enrichment 3-5% • Important for Nuclear weapons – enrichment 20-90% Note: 1 barn = 10-24 cm2 Page 7

  8. Uranium Enrichment • During the Uranium enrichment process, the accuracy of the isotope ratios is critical • Isotope ratios are typically measured using TIMS or ICP-MS • Typical ratio precisions: (when m1/m2 ~ 1) • ICP-MS • Non-cell ~ 0.2% RSD or 2000 ppm cost ~ $120k • DRC ~ 0.05% RSD or 500 ppm cost ~ $160k • Multi-collector ~ 0.005% RSD or 50 ppm cost ~ $500k • TIMS ~ 0.0005% RSD or 5 ppm cost ~ $300k • In general, sample prep and analysis is faster by ICP-MS than by TIMS • Minutes/hours rather than hours/days Page 8

  9. Isotope Ratio Analysis • Precision is best when the signals are of similar intensity (abundance). • The precision of the analysis can be improved by counting more ions – (increase sensitivity or longer analysis times) until the counting statistic limit is reached. • Counting statistics limit – the theoretical best precision achievable based on the number ions measured. • Using an ICP-MS with a high pressure cell, the ratio precisions can be improved 5-10x over non-cell ICP-MS instruments. • On Dynamic Reaction Cell (DRC) instruments, the isotope ratios are within 30% of the counting statistics limit. • (D.R. Bandura et. al., JAAS, 15, 921, 2000) Page 9

  10. Uranium Enrichment/Depletion Analysis • A recent prospect was looking for a cost effective way to verify the amount of 235U depletion in a sample • Required an isotope ratio accuracy < 0.1% (1000 ppm) for 235U/238Uindepleted uranium (0.2 - 0.7% 235U) • Solution: ELAN DRC-e Page 10

  11. Uranium Depletion Analysis A standard ELAN DRC-e was used - no options • Cell gas – Argon @ 0.2 ml/min, RPq = 0.25 • Analysis time 10 minutes per sample • Sample - CRM U005A – 0.5% 235Uby weight • (235U/238U = 1:200 ratio) • Mass bias correction used for each sample • Standard • Sample • Standard • Sample Page 11

  12. Uranium Depletion Analysis • U500A ratio data for a single sample analysis (10 minutes) DRC-e Results: Ratio Precision - 0.194% (1σ) (within 27% of Statistical Error) a.k.a counting statics limit Ratio Accuracy – 0.148% Certified ratio for U005A: 0.005090 ± 0.0000015 (as atom fraction) Note: Accuracy = {(measured-certified)/certified} Page 12

  13. Uranium Depletion Analysis • U005A ratio data for a group of 10 samples Ratio Precision - 0.066% (660 ppm) (1σ) (within 9% of Statistical Error) Ratio Accuracy – 0.054% (540 ppm) Note: Accuracy = {(measured-certified)/certified} Page 13

  14. Uranium Depletion Analysis • Long term performance over multiple non-consecutive days Each group consists of 10 samples External precision is the RSD of the means Grand mean recovery - 100.014% External precision – 0.023% (1σ) Page 14

  15. Uranium Enrichment/Depletion Analysis • Quick look at all the isotopes in CRM U005A Data from a single 3 minute screening measurement: Even 236U/238U (1:90k) had better than 5% accuracy. Page 15

  16. Uranium Analysis Summary • The ELAN DRC-e can perform high precision and high accuracy Uranium analysis on isotopes that vary widely in abundance. For 200:1 ratio: • Sample Precision < 0.3% (1σ) • Sample Accuracy < 0.2% • Group* precision < 0.15% (1σ) • Group* accuracy < 0.05% • 12 group precision < 0.025% (< 250 ppm) (1σ) • 12 group accuracy < 0.015% (< 150 ppm) U005A grand mean recovery - 100.014% %RSD = 0.023% (1σ), 0.046% (2σ), *Each group consists of 10 samples Page 16

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