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Nuclear, chemical, and physical characterization of nuclear materials

Authors :: Laurie F. Walker
Rodney J. McCabe
David H. Beddingfield
Cris L. Lewis
Brian M. Patterson
S.E. Garner
D. Gallimore
S. L. Mecklenburg
J. R. FitzPatrick
R. Gritzo
J. Barnes
Amy Wong
S. Meyers
Christopher G. Worley
R. A. Pereyra
Velma M Montoya
Daniel S. Schwartz
D. Langner
George J. Havrilla
Mark Scott
Diana L. Decker
R. E. Steiner
E. P. Hastings
Lav Tandon
Vahid Majidi
Christy E. Ruggiero
David J. Mercer
Khalil J. Spencer
H. M. Volz
D. Rademacher
Stephen P. LaMont
T. Hahn
R. Villarreal
J. Banar
Kevin J. Kuhn
Patrick T. Martinez
J. Poths
Donivan R. Porterfield
J. Dyke
B. Johnson
D. Farr
Source :: Journal of Radioanalytical and Nuclear Chemistry. 276:467-473
Publication Year :: 2008
Publisher :: Springer Science and Business Media LLC, 2008.
Abstract: The goal of nuclear forensics is to establish an unambiguous link between illicitly trafficked nuclear material and its origin. The Los Alamos National Laboratory (LANL) Nuclear Materials Signatures Program has implemented a graded “conduct of operations” type analysis flow path approach for determining the key nuclear, chemical, and physical signatures needed to identify the manufacturing process, intended use, and origin of interdicted nuclear material. This analysis flow path includes both destructive and non-destructive characterization techniques and has been exercized against different nuclear materials from LANL’s special nuclear materials archive. Results obtained from the case study will be presented to highlight analytical techniques that offer the critical attribution information.