Year
2010
Abstract
There is growing interest in a set of methods and tools that can be used to characterize past ?ssile material production activities, using measurements and sampling at production and storage sites. This ?eld has been dubbed “nuclear archaeology.” The best-established example of nuclear archaeology relies on mea- surements of the isotope ratios of selected elements in the graphite of graphite- moderated plutonium production reactors. This Graphite Isotope-Ratio Method (GIRM) determines the cumulative neutron ?uence through the graphite and thereby estimates the cumulative plutonium production in the reactor. The great limitation of this particular method is that it can only be applied to graphite- moderated reactors, which represent only one class of reactors that have been used for unsafeguarded plutonium production. In this paper, we propose to ex- tend this method to non-graphite moderated reactors by analyzing the evolution of relevant isotope ratios in the support structures and other core components of heavy-water moderated reactors. We present results of neutronics calculations for a generic heavy-moderated reactor evaluating the robustness of the method and explore the role of nuclear archaeology for applications in arms-control treaty veri?cation.