Newly observed phenomenon could lead to new quantum devices
Exotic states called Kohn anomalies could offer clues to why some materials have the electronic properties they do.
Exotic states called Kohn anomalies could offer clues to why some materials have the electronic properties they do.
Using 3D fabrication, researchers develop novel nuclear materials that optimize both accident tolerance and performance.
After his PhD thesis invalidates an old assumption, Norman Cao wonders what’s next.
Three MIT teams to explore novel ways to reduce operations and maintenance costs of advanced nuclear reactors.
Molecules containing heavy and deformed radioactive nuclei may help scientists to measure symmetry-violating phenomena and identify signs of dark matter.
UROP students explore applications in robotics, health care, language understanding, and nuclear engineering.
Graduate student Erica Salazar tackles a magnetic engineering challenge.
After delivering novel computational methods for nuclear problems, nuclear science and engineering PhD candidate Pablo Ducru plunges into startup life.
Professors Paola Cappellaro, Warren Seering, and Lily Tsai honored as “Committed to Caring.”
Danagoulian and his research team developed a system that could greatly improve the process for verifying compliance of nuclear warheads.
Nuclear scientists and biomedical researchers team up to investigate whether treatment with gamma radiation could make N95 masks more reusable.
Fusion energy community makes unified statement on priorities in report for Department of Energy Policy Advisory Group.
Graduate engineering program is No. 1 in the nation; MIT Sloan is No. 5.
System “recruits” defects that usually cause disruptions, using them to instead carry out quantum operations.
Highly regarded physicist was well-known for studying plasma turbulence in terms of coherent structures.