AUTHOR=McCombs Audrey Lamson , Stricklin Madeline Anne , Goode Katherine , Huerta J. Gabriel , Shuler Kurtis , Tucker J. Derek , Zhang Adah , Sweet Lucas , Ries Daniel 

TITLE=Inverse prediction of PuO2 processing conditions using Bayesian seemingly unrelated regression with functional data

JOURNAL=Frontiers in Nuclear Engineering

VOLUME=3

YEAR=2024

URL=https://www.frontiersin.org/journals/nuclear-engineering/articles/10.3389/fnuen.2024.1331349

DOI=10.3389/fnuen.2024.1331349

ISSN=2813-3412

ABSTRACT=<p>Over the past decade, a variety of innovative methodologies have been developed to better characterize the relationships between processing conditions and the physical, morphological, and chemical features of special nuclear material (SNM). Different processing conditions generate SNM products with different features, which are known as “signatures” because they are indicative of the processing conditions used to produce the material. These signatures can potentially allow a forensic analyst to determine which processes were used to produce the SNM and make inferences about where the material originated. This article investigates a statistical technique for relating processing conditions to the morphological features of PuO<sub>2</sub> particles. We develop a Bayesian implementation of seemingly unrelated regression (SUR) to inverse-predict unknown PuO<sub>2</sub> processing conditions from known PuO<sub>2</sub> features. Model results from simulated data demonstrate the usefulness of the technique. Applied to empirical data from a bench-scale experiment specifically designed with inverse prediction in mind, our model successfully predicts nitric acid concentration, while results for Pu concentration and precipitation temperature were equivalent to a simple mean model. Our technique compliments other recent methodologies developed for forensic analysis of nuclear material and can be generalized across the field of chemometrics for application to other materials.</p>