Exploring new paths to future quantum electronics
Jagadeesh Moodera and colleagues to investigate interface-driven phenomena in quantum materials in the quest for energy-efficient quantum electronics.
Jagadeesh Moodera and colleagues to investigate interface-driven phenomena in quantum materials in the quest for energy-efficient quantum electronics.
Device may enable “T-ray vision” and better wireless communication.
Facility modernization plan includes a new compound semiconductor laboratory and microsystem integration facility that will enable modern innovation.
Mouse study links early metastasis to systemic inflammation caused by wound healing.
The fellowship supports top-tier researchers at U.S. universities whose high-risk, high-payoff work is of strategic importance to the Department of Defense.
Subnanometer-scale channels in 2-D materials could point toward future electronics, solar cells.
Researchers have identified a key nutrient sensor in the mTOR pathway that links nutrient availability to cell growth.
Honor recognizes individuals who have demonstrated ability and special aptitude for advanced training in science and engineering.
National public-private consortium led by MIT will involve manufacturers, universities, agencies, companies.
Dialogue with defense secretary focuses on bolstering leading-edge manufacturing.
Finding shows small amounts of repeated stretching can eliminate crystal defects in nanoscale metal parts.
Research and development at MIT Lincoln Laboratory will help agencies better respond to disasters and humanitarian crises.
CSAIL team just misses winning the grand prize after programming a 400-lb humanoid robot to lift beams, climb stairs, and drive a car.