Perfetti receives ANS Landis Engineering Achievement Award

June 26, 2025 - Carly Bowling

photo: Chris Perfetti receiving his award

Chris Perfetti, associate professor in the Department of Nuclear Engineering, received the American Nuclear Society Landis Young Member Engineering Achievement Award at the organization’s national conference in Chicago for his work advancing nuclear engineering modeling and simulation codes.

Perfetti works on Monte Carlo codes, a niche class of nuclear engineering code established during the Manhattan Project to determine if a system is critical or not. On his first trip overseas, Perfetti took a train ride from Paris to Monte Carlo “to fulfill his nerd quest” of visiting the namesake city of these codes. With a book on sensitivity analysis borrowed from a colleague at Oak Ridge National Laboratory in hand, Perfetti had an idea. Over the course of the six-hour ride, he began developing a theory that generalized adjoint-based sensitivity algorithms in Monte Carlo codes to applications other than assessing criticality. It worked.

“If you are designing a nuclear reactor, you already know it’s going to be critical during operation, but there are other things that are more unknown, such as design-limiting reactor physics properties. By generalizing these sensitivity analysis algorithms, we can now develop more rigorous uncertainty estimates and margins for these design-limiting parameters,” he said.

As increasing material costs and regulations have made full-scale experimentation more challenging, nuclear engineers must rely more heavily on highly predictive modeling and simulation to design next-generation nuclear reactors. Perfetti’s methods, which generalized Monte Carlo code sensitivity analysis, opened new doors for simulations by better understanding the impacts of uncertainty in these simulations.

Perfetti worked as a research and development scientist at Oak Ridge at the time he developed this theory. One of its first real applications was optimizing the lab’s isotope production for producing Californium-252, a nuclear reactor starter source and one of the most expensive isotopes in the world. He then moved his attention to examining the time-dependent evolution of nuclear fuel in a reactor.

“Generalizing perturbation theory and applying it to depletion simulations has been an unsolved problems in nuclear engineering for more than 50 years. Solving these problems has been a highlight of my career and I think the reason why I was selected for this award.” In 2023, Perfetti received a grant from the Nuclear Regulatory Commission to extend the depletion sensitivity methods he developed to the quantify uncertainty in the fuel lifetime in nuclear reactors.

Perfetti is the second UNM faculty member to have received the Landis Young Member Engineering Achievement Award. The other recipient, Provost James Holloway, received the award in 2000 when he was an associate professor of Nuclear Engineering and Radiological Sciences at the University of Michigan, and served on Perfetti’s Ph.D. dissertation committee in 2012.