JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 1 November 2008 Uranium detected at scrap metal recycling facility, Rotterdam, NL Questions:

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JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 1 November 2008 Uranium detected at scrap metal recycling facility, Rotterdam, NL Questions: 1.How did the material get there? 2.Origin of the material ? 3.Intended use of the material? 4.Age of the material? November 2007 Uranium intercepted through intelligence, Pribeník, SK Introduction

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 2 Introduction

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 3 Detection and Nuclear Forensic Analysis of Uranium Materials NOTES 1. PLACE, DATE AND EVENT NAME 1.1. Access the slide-set place, date and event name text box beneath the JRC logo from the Slide Master Do not change the size nor the position of that text box Replace the mock-up texts for the place (“Place”), the date (“dd Month YYYY”) and the event name (“Event Name”) with your own texts Set it in MetaPlus Book Roman, if you own the typeface. Otherwise, keep the original typeface – Arial Keep the original flush-left justification Keep the original font colour (white) Keep the original font body size (7 pt) and the text on one single line. 2. SLIDE NUMBER 2.1. The slide number on the banner’s lower right-hand side is automatically generated. 3. SLIDES 3.1. Duplicate the first slide as needed Do not change the size nor the position of the slide’s text box Try not to place more text on each slide than will fit in the given text box Replace the mock-up heading text (“Joint Research Centre (JRC)”) with your own text heading Set it in Eurostile Bold Extended Two or in Helvetica Rounded Bold Condensed, if you own one of these typefaces. Otherwise, keep the original typeface – Arial Keep the original flush-left justification Keep the original font colour (100c 80m 0y 0k) Keep the original font body size (28 pt) and the heading on one single line whenever possible. Reduce the font body size if needed Replace the mock-up text (“The European Commission’s Research-Based Policy Support Organisation)”) with your own text Set it in MetaPlus Book Roman, if you own the typeface. Otherwise, keep the original typeface – Arial Keep the original flush-left justification Keep the original font colour (100c 80m 0y 0k). Use black if you need a second colour Keep the original font body size (22 pt) or reduce it if unavoidable Replace the EU-27 map mock-up illustration with your own illustration(s) Try to keep your illustration(s) right- and top- or bottom-aligned with the main text box whenever possible. NOTES 1. PLACE, DATE AND EVENT NAME 1.1. Access the slide-set place, date and event name text box beneath the JRC logo from the Slide Master Do not change the size nor the position of that text box Replace the mock-up texts for the place (“Place”), the date (“dd Month YYYY”) and the event name (“Event Name”) with your own texts Set it in MetaPlus Book Roman, if you own the typeface. Otherwise, keep the original typeface – Arial Keep the original flush-left justification Keep the original font colour (white) Keep the original font body size (7 pt) and the text on one single line. 2. SLIDE NUMBER 2.1. The slide number on the banner’s lower right-hand side is automatically generated. 3. SLIDES 3.1. Duplicate the first slide as needed Do not change the size nor the position of the slide’s text box Try not to place more text on each slide than will fit in the given text box Replace the mock-up heading text (“Joint Research Centre (JRC)”) with your own text heading Set it in Eurostile Bold Extended Two or in Helvetica Rounded Bold Condensed, if you own one of these typefaces. Otherwise, keep the original typeface – Arial Keep the original flush-left justification Keep the original font colour (100c 80m 0y 0k) Keep the original font body size (28 pt) and the heading on one single line whenever possible. Reduce the font body size if needed Replace the mock-up text (“The European Commission’s Research-Based Policy Support Organisation)”) with your own text Set it in MetaPlus Book Roman, if you own the typeface. Otherwise, keep the original typeface – Arial Keep the original flush-left justification Keep the original font colour (100c 80m 0y 0k). Use black if you need a second colour Keep the original font body size (22 pt) or reduce it if unavoidable Replace the EU-27 map mock-up illustration with your own illustration(s) Try to keep your illustration(s) right- and top- or bottom-aligned with the main text box whenever possible. Klaus Mayer, Maria Wallenius Institute for Transuranium Elements (ITU) Karlsruhe, Germany

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 4 Contents About ITU Introduction Response Nuclear Forensics Methodology Recent Example –Pellets seized in northern Germany (2007) –Uranium detected at scrap metal yard (2006) Conclusion

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 5 Illicit Trafficking (all types) incidents (source: IAEA) Nuclear forensics

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 6 Response to illicit trafficking Detection Categorization Source Attribution Nuclear Forensics Nuclear Material (U, Pu, reactor or weapons grade) or other radioactive material ( 60 Co, 137 Cs, 192 Ir,…) Detection equipment, intelligence

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 7 Aims at identifying suspect individual using information adherent to the pieces of evidence: Fingerprints “genetic fingerprint” Fibre Hair Residues of explosives Objective Solve criminal case and put criminal individual to jail Classical Forensics

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 8 Aims at identifying origin and intended use using information inherent to the (nuclear) material: Isotopic Composition Elemental Composition Impurities Macroscopic appearance Microstructure Decay Products Objective Improve safeguards and physical protection measures at place of theft or diversion to prevent future thefts or diversions Nuclear Forensics

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 9 Isotopic Composition Elemental Composition Impurities Macroscopic appearance Microstructure Decay Products Nuclear Forensics Methodology Analytical Methods taken from: Safeguards Material Science Isotope Geology Data Information Age Intended Use Production Mode Place of Production Last Legal Owner Smuggling Route Endogenic self-explaining Exogenic requires reference data

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 10 Example Lauenförde -Chronology 22. February 2007 Pellets found in garden 28. February 2007 Ministry for Environment (Niedersachsen) asks for support by ITU 03. March 2007Samples arrive at ITU 05. March Intermediate Report (first clues) 09. March Intermediate Report (all conclusions) 10. Mai 2007Final Report (full details)

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 11 Investigation in the Laboratory Unpacking Visual Inspection Non-destructive measurement Homogeneity Testing

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 12 Investigation in the Laboratory U-234U-235U-236U-238 Isotope Abundance (Mass%)0,029 4 %3,455 %0,005 2 %96,511 % Uncertainty0,000 3 %0,004 %0,000 1 %0,003 % U-234U-235U-236U-238 Isotope Abundance (Mass%)0,029 3 %3,459 0 %0,005 0 %96,506 7 % Uncertainty0,000 2 %0,002 0 %0,000 1 %0,003 0 % Isotopic Composition measured by TIMS measured by MC-ICP-MS

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 13 Investigation in the Laboratory Chemical Impurities

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 14 Investigation in the Laboratory Optical Microscopy Pellet Geometry

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 15 Database Query – Enrichment, Geometry MessungDatenbank [1]Datenbank [2] Mittel- wert StDevNominal -wert ToleranzNominal- wert Toleranz Durchmessermm Dishing Durchmesser mm *0.3* Dishing Abstand (Land) mm *0.1* Chamfer Breitemm Siemens (RBU) Brennelementfabrik Hanau

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 16 Investigation in the Laboratory Radioactive decay as built-in chronometer Last chemical separation Nov./Dec Pellet production campaign Feb./March 1991 Fall 1991 Upgrade of physical protection at RBU plant Age Determination

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 17 Example 2 - Hennigsdorf Detected 30 March 2006 First measurement by TÜV Rheinland showed 90% enriched uranium (50 g) 1,5 g sample scraped off and sent to ITU

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 18 Gamma Spectrometry Uranium contaminated with very small amounts of 241 Am and 137 Cs

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 19 Isotopic Composition Technique 233 U 234 U 235 U 236 U 238 U TIMS ± ± ± ± MC-ICP-MS ± ± ± ± ± Uranium Content: 9.95 % (mass fraction)

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 20 Microscopy Age Detemination: Production date Dec (± 4 months)

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 21 Microscopy

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 22 Attribution FacilityOperatorFuelPower (MW) IR-8Kurchatov Institute, MoscowUO 2 + Al8 BR-10IPPE, ObninskUO 2 – PuO 2 10 BOR-60NIIAR, DimitrovgradU or Pu60 MIR-M1UO 2 + Al100 SM-3UO 2 + Cu100 IVV-2MNIKIET, YekaterinburgUO 2 + Al15 IRT-TTPI, TomskUO 2 + Al6 IRT-MIFIMIFI, MoscowUO 2 + Al2.5 VVR-MPNPI, Gatchina, St.PetersburgUO 2 + Al18 Research Reactors (in Russia) using 90% enriched uranium

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 23 Example 2 - Conclusions Sample 234 U 235 U 236 U 238 UInformation Find-16 + Czech HEU ITU Round Robin HEU ITU Bulgaria HEU LLNL Georgia New York Times Find-27 (this work) ITU Chemically impure material, high Al content 88.9% enriched in 235 U Traces of 137 Cs and 241 Am Most likely research reactor fuel Scrap

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 24 Atomic Detectives - Summary Nuclear forensics Discipline between science, law enforcement, Uses systematic approach for analysis and attribution Benefits from Reference Data Provides clues on the origin of the material Assures sustainability in combating illicit trafficking Calls for International Co-operation Methodology applicable in other areas

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 25 Exercise- 1 After a seizure of radioactive material, the measurement team called to the incident site typically performs high resolution gamma spectrometry. What spectra can they expect for a measurement carried out with the material still being inside the transport container (10 mm Steel and 5 mm lead) for the following material ? a)Freshly separated natural uranium ? b)Natural uranium separated 1 year ago ? c)Freshly separated highly enriched uranium (1.08% 234 U; 93.34% 235 U; 0.2% 236 U; 5.38% 238 U ) ? d)Highly enriched uranium (1.08% 234 U; 93.34% 235 U; 0.2% 236 U; 5.38% 238 U ) separated 50 years ago ?

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 26 Exercises Examples of application of NUCLEONICA to problem related to uranium (in illicit trafficking and nuclear forensics) Nuclide explorer Nuclide mixture (virtual nuclide) Decay engine Gamma spectrum simulator

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 27 Exercise- 2 If you want to determine the age of a uranium sample, which parent/daughter pairs can you use in principle?

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 28 Exercise- 3 One of the methods safeguards inspectors use to verify compliance with treaty obligations is "environmental sampling", i.e. the collection of particles within (or outside) nuclear facilities using swipe sampling. Uranium particles in such swipe samples are typically analyzed for their isotopic composition. However, the question arises whether age determination on such small particles is also possible.

JRC-ITU Karlsruhe – November 2009, Nucleonica ITRAC Training Course 29 Exercise- 3 Assume the minimum number of daughter atoms required for age determination is A typical UO 2 particle on such swipes has a diameter of 1  m. The density of UO 2 is 10 g/cm 3. a)Can Age determination be performed on such particles if the isotopic composition is natural (0.0055% 234 U; 0.7% 235 U) ? b)Is age determination possible for particles of highly enriched uranium (1.08% 234 U; 93.34% 235 U) ? V = 4/3  r 3 U/UO 2 = 0,8815 N A = · mol -1