Physicists arrange atoms in extremely close proximity
The technique opens possibilities for exploring exotic states of matter and building new quantum materials.
The technique opens possibilities for exploring exotic states of matter and building new quantum materials.
Three neurosymbolic methods help language models find better abstractions within natural language, then use those representations to execute complex tasks.
New curriculum from MIT and collaborating institutions aims to give technicians a ladder to become shop-floor leaders — “technologists” who bridge the gap between technicians and engineers.
Northeast Microelectronics Coalition Hub funding will expand the reach of the Northeast Microelectronics Internship Program for first- and second-year college students.
State-of-the-art toolset will bridge academic innovations and industry pathways to scale for semiconductors, microelectronics, and other critical technologies.
Using machine learning, the computational method can provide details of how materials work as catalysts, semiconductors, or battery components.
During 18 years of leadership, Evans established new R&D mission areas, strengthened ties to the MIT community, and increased inclusion and education efforts.
Working with mentors and military operators, cadets are addressing challenges in such areas as autonomy, data analytics, communications, and blood delivery.
The Spark Photonics Foundation works with educators to get K-12 and college students interested in STEM fields, including advanced manufacturing and semiconductors.
Lincoln Laboratory is developing a roadmap to streamline system acquisitions and facilitate connectivity across the Southwestern test ranges.
A Lincoln Laboratory team visited Hill Air Force Base in Utah to determine how susceptible the latest-generation mobile network is to detection, geolocation, and jamming.
Professor of physics will use US Department of Defense fellowship to study quantum science with ultracold atoms.
Experts from MIT’s School of Engineering, Schwarzman College of Computing, and Sloan Executive Education educate national security leaders in AI fundamentals.
Through the Multidisciplinary University Research Initiative, the US Department of Defense supports research projects in areas of critical importance to national defense.
MIT’s Science Policy Initiative sends students and postdocs to Capitol Hill to advocate for continued and increased federal support for scientific research.