Nuclear Data Needs for Microcalorimetry and Non-destructive Assay

TL;DR

This paper discusses the importance of nuclear data for enhancing the accuracy of microcalorimetry in nuclear material analysis and summarizes a workshop that identified key data needs and collaborative efforts.

Contribution

It provides a prioritized list of nuclear data needs for microcalorimetry and proposes a multi-laboratory measurement campaign to improve this data.

Findings

Identified critical nuclear data gaps affecting microcalorimetry accuracy.

Established a roadmap for nuclear data improvement efforts.

Proposed collaborative measurement campaigns across laboratories.

Abstract

Cryogenic microcalorimeters are state-of-the-art radiation detectors using superconducting and quantum technologies. They can resolve complex X-ray and low-energy {\gamma}-ray spectra with ultra-high energy resolution of an order of 10 eV at 100 keV, enabling high-precision non-destructive assay (NDA) analysis of nuclear materials containing uranium, plutonium and other actinides. With significant technical advancements in microcalorimetry technology, microcalorimeters are now deployable to end-users such as the International Atomic Energy Agency (IAEA) for improved NDA. However, the accuracy of microcalorimetry analysis can be limited by nuclear data. There are several cases that the current nuclear data obtained by conventional radiation detector technologies is not sufficient to support microcalorimetry analysis. To address the growing need for improved nuclear data in microcalorimetry, the U.S. Department of Energy Office of International Nuclear Safeguards hosted a workshop on Microcalorimetry and Nuclear Data (MiND) in June 2023. Microcalorimetry experts and users, and nuclear structure evaluators and managers, and program sponsors attended the workshop with the main objective of identifying a roadmap for priority nuclear data, stakeholders, partnerships, and opportunities. This paper summarizes the outcome of the MiND workshop, including the priority list of nuclear data for microcalorimetry and a multi-laboratory measurement campaign to improve such nuclear data.