Nanoscale spatially resolved mapping of uranium enrichment in actinide-bearing materials
Elizabeth Kautz, Douglas Burkes, Vineet Joshi, Curt Lavender, Arun, Devaraj

TL;DR
This paper demonstrates the use of atom probe tomography to achieve unprecedented nanoscale spatial mapping of uranium isotopic enrichment in actinide materials, enabling detailed analysis at sub-nanometer resolution.
Contribution
It introduces a novel application of atom probe tomography for high-resolution isotopic mapping in actinide materials, surpassing previous spatial resolution limitations.
Findings
Successful nanoscale mapping of uranium isotopes in actinide alloys.
High sensitivity detection across microstructural interfaces.
Applicable to various actinide-bearing materials for origin and processing insights.
Abstract
Spatially resolved analysis of uranium isotopes in small volumes of actinide-bearing materials is critical for a variety of technical disciplines, including earth and planetary sciences, environmental monitoring, bioremediation, and the nuclear fuel cycle. However, achieving sub-nanometer scale spatial resolution for such isotopic analysis is currently a challenge. By using atom probe tomography, a three dimensional nanoscale characterization technique, we demonstrate unprecidented nanoscale mapping of uranium isotopic enrichment with high sensitivity across various microstructural interfaces within small volumes (100 nm3) of depleted and low enriched uranium alloyed with 10 wt % molybdenum with different nominal enrichments of 0.20 and 19.75% 235U respectively. The approach presented here can be applied to study nanoscale variations of isotopic abundances in the broad class of…
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