Jeremy Osborn, a nuclear engineering Ph.D. student working with the Center for Nuclear Security Science and Policy Initiatives, is part of a team of researchers who are working to develop new methods to determine the reactor origins of weapons-grade plutonium.
In March, the Texas A&M Engineering Experiment Station's (TEES) Center for Nuclear Security Science and Policy Initiatives, joined with the TEES Institute of Nuclear-Security and Cyber-Security Education and Research, the Bush School of Government and Public Service, and the Texas A&M University student chapter of the Institute of Nuclear Materials Management to present a panel discussion on 21st Century Deterrence and the 2018 Nuclear Posture Review.
Yanuar (Ady) Setiawan, a master’s student with the Center for Nuclear Security Science and Policy Initiatives (NSSPI), and Dr. Sunil Chirayath, director of NSSPI, have developed a software code that can measure the effectiveness of the physical protection system using a multi-path analysis that includes all of the possible intrusion path options in a nuclear facility.
Radiation detectors are deployed for many different uses in a variety of different field conditions, and many of these detection systems are mobile. Lt. James Falkner and Dr. Craig Marianno are working together to analyze the performance of mobile radiation detection systems with respect to how fast the systems are moving.
Recently a group of 12 Texas A&M University nuclear engineering graduate students from the Texas A&M Engineering Experiment Station (TEES) Nuclear Security Science and Policy Institute (NSSPI) traveled to Tennessee to participate in a short course in non-destructive assay (NDA) techniques.
As concerns of proliferation, the spread of nuclear weapons development, grows among hostile foreign powers, researchers at Texas A&M University are improving technologies that help monitor nuclear materials across the globe.
Dr. Jonathan Burns, an associate research scientist with the Nuclear Security Science and Policy Institute (NSSPI), was recently awarded a research and development award of nearly $400,000 from the U.S. Department of Energy as part of their Nuclear Energy University Program (NEUP)