Home / Store / Journals / Electronic Articles / Nuclear Science and Engineering / Volume 176 / Number 1 / Pages 98-105
Karen A. Miller, Martyn T. Swinhoe, Stephen Croft,Takayuki Tamura, Shun Aiuchi, Akio Kawai, and Tomonori Iwamoto
Nuclear Science and Engineering / Volume 176 / Number 1 / Pages 98-105
Format:electronic copy (download)
As new uranium enrichment plants are proposed and come online worldwide, interest in using neutron methods for uranium hexafluoride (UF6) cylinder assay has been growing; however, large discrepancies exist in published F(α,n) yields from uranium isotopes. Uncertainties in these data are propagated through the analysis of every UF6 measurement and have implications for safeguards conclusions drawn from them. In this paper, a value for the specific F(α,n) yield in UF6 from 234U is calculated from measurements of 30B cylinders containing bulk UF6 at the Rokkasho Enrichment Plant in Japan. The measurements were taken using the Uranium Cylinder Assay System. The yield was derived by combining the cylinder measurements with detailed Monte Carlo modeling, known isotopic composition, and inversion analysis. We calculated the 234U neutron emission rate in UF6 to be (474 ± 21) n/s·g−1 with a 68% confidence level. The results obtained in this study will help enable an important class of nondestructive assay instruments to be applied with greater confidence and accuracy.
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