Advanced analysis techniques for uranium assay

Geist, W H; Ensslin, Norbert; Carrillo, L A; Beard, C A

Title: Advanced analysis techniques for uranium assay

Conference · Mon Jan 01 00:00:00 EST 2001

OSTI ID:975564

Geist, W H ^[1]; Ensslin, Norbert; Carrillo, L A ^[2]; Beard, C A ^[3]

William H.
Louis A.
Carl A.

Uranium has a negligible passive neutron emission rate making its assay practicable only with an active interrogation method. The active interrogation uses external neutron sources to induce fission events in the uranium in order to determine the mass. This technique requires careful calibration with standards that are representative of the items to be assayed. The samples to be measured are not always well represented by the available standards which often leads to large biases. A technique of active multiplicity counting is being developed to reduce some of these assay difficulties. Active multiplicity counting uses the measured doubles and triples count rates to determine the neutron multiplication (f4) and the product of the source-sample coupling ( C ) and the 235U mass (m). Since the 35U mass always appears in the multiplicity equations as the product of Cm, the coupling needs to be determined before the mass can be known. A relationship has been developed that relates the coupling to the neutron multiplication. The relationship is based on both an analytical derivation and also on empirical observations. To determine a scaling constant present in this relationship, known standards must be used. Evaluation of experimental data revealed an improvement over the traditional calibration curve analysis method of fitting the doubles count rate to the 235Um ass. Active multiplicity assay appears to relax the requirement that the calibration standards and unknown items have the same chemical form and geometry.

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Research Organization:: Los Alamos National Laboratory (LANL), Los Alamos, NM (United States)

Sponsoring Organization:: USDOE

OSTI ID:: 975564

Report Number(s):: LA-UR-01-3331; TRN: US1006751

Resource Relation:: Conference: Submitted to: INMM, Institute of Nuclear Materials Management 42nd Annual Meeting, Indian Wells, CA, July 15-19, 2001

Country of Publication:: United States

Language:: English

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11 NUCLEAR FUEL CYCLE AND FUEL MATERIALS
CALIBRATION
CALIBRATION STANDARDS
EVALUATION
FISSION
GEOMETRY
MULTIPLICITY
NEUTRON EMISSION
NEUTRON SOURCES
NEUTRONS
NUCLEAR MATERIALS MANAGEMENT
URANIUM

Title: Advanced analysis techniques for uranium assay

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