Who We Work With
We collaborate with national laboratories and leading research universities to push the boundaries of what's possible.
Los Alamos National Laboratory
A longstanding collaboration in nuclear physics, computational modeling, and national security science. Our work with LANL spans nuclear structure theory, astrophysical simulations, and advanced algorithm development.
Lawrence Livermore National Laboratory
Advancing the frontier of nuclear data through artificial intelligence. Our partnership with LLNL applies modern machine learning to nuclear data evaluation, uncertainty quantification, and cross-section modeling — accelerating the workflows that underpin stockpile stewardship, reactor physics, and national security missions, and delivering the high-fidelity datasets that mission-critical simulations demand.
University of Notre Dame
Partnering on experimental nuclear astrophysics and sensitivity studies that pinpoint the most influential nuclei to measure at radioactive beam facilities. Notre Dame's world-class accelerator capabilities paired with our computational and theoretical expertise guide high-impact experimental campaigns — directing scarce beamtime toward the measurements that matter most.
North Carolina State University
Unraveling the origin of the elements. Our collaboration with NC State focuses on nuclear astrophysics — modeling the stellar and explosive environments that forged elements on the periodic table. Through large-scale reaction network simulations, nuclear theory, and astrophysical modeling, we trace the cosmic pathways that built the matter around us.
University of North Carolina at Chapel Hill
Building machine learning emulators for theoretical nuclear modeling. Our work with UNC replaces prohibitively expensive first-principles calculations with fast, physics-informed surrogate models — enabling rapid exploration of parameter space, rigorous uncertainty quantification, and predictive modeling at a scale that traditional approaches cannot reach.