The Department of Energy’s Oak Ridge National Laboratory, a bastion of nuclear physics research for the past 80 years, is poised to strengthen its programs and service to the United States over the next decade if national recommendations of the Nuclear Science Advisory Committee, or NSAC, are enacted.

“The 2023 Long Range Plan lays out a compelling vision for nuclear science in the United States under multiple budget scenarios,” said Gail Dodge, physicist at Old Dominion University and chair of the NSAC. “Implementation of the Long Range Plan’s recommendations will maintain the nation’s leadership and workforce in nuclear science.”

On Wednesday the NSAC, which advises DOE and the National Science Foundation on nuclear physics, approved a 10-year roadmap, or Long Range Plan. It includes four key priorities that would advance the nation’s nuclear science research program and set the direction of research for another generation of scientists.

The recommendations would give ORNL a continuing critical role in helping maintain the nation’s leadership in nuclear physics for at least the next decade — solving mysteries of how the smallest particles in the universe behave and using that understanding to advance medicine, quantum science, energy, national security and other areas that improve the lives of people everywhere.

Research in nuclear physics — the science of atomic nuclei and their constituents — helps us understand how virtually all ordinary matter in the universe originated and evolved. The cutting-edge research on particles is also used in isotope production, medical diagnosis, national security, energy, nuclear treaty verification, the environment and nuclear applications.

The highest priority, according to the plan, is increasing the budget for nuclear physics in theoretical, experimental and computational research “to capitalize on the extraordinary opportunities for scientific discovery made possible by the substantial and sustained investment of the United States.” This would expand “discovery potential, technological innovation, and workforce development to the benefit of society.” This recommendation, if adopted, would ensure user facilities throughout the country would continue to operate at the highest level and reap the most scientific benefit.

“Each one of the four recommendations has a large impact for ORNL,” said David Radford, ORNL physicist and head of the lab’s Fundamental Nuclear and Particle Physics Section. For example, another recommendation is for funding of multiple large experiments to search for neutrinoless double beta decay; one of these experiments has leadership and significant participation from ORNL scientists. The advisory committee recommends that construction of ton-scale detectors addressing fundamental physics should be a top budgetary priority.

That research, which aims to solve the problem of how matter came to dominate over antimatter, will provide insight into the origin and mass of the neutrino, and in so doing could rewrite the Standard Model of particle physics. The research includes experiments known as CUPID, LEGEND and nEXO proposed by international collaborations. ORNL scientists, including Radford, are leading DOE’s contribution to building LEGEND.

“This could help explain the matter-antimatter imbalance in the universe,” Radford said. “This plan reiterates that the experiment should go forward. That’s very important for this extremely compelling and exciting physics.”

Radford and Cynthia Jenks, ORNL’s associate laboratory director for the Physical Sciences Directorate, said the ORNL impacts at a rollout of the plan on Friday after the plan was released to the public on Wednesday.