Faculty highlight: Liang Fu
MIT theoretical physicist’s research bridges abstract math and exotic computing materials.
MIT theoretical physicist’s research bridges abstract math and exotic computing materials.
MIT attendees of COP21 share experiences, perspectives on outcomes
Depositing different materials within a single chip layer could lead to more efficient computers.
System for handling massive digital datasets could make impossibly complex problems solvable.
Results may help improve efficiency of solar cells, energy-harvesting devices.
Solving a longstanding mystery, MIT experiments reveal two forms of turbulence interacting.
Researchers combine the warm look of traditional light bulbs with 21st-century energy efficiency.
Formed in the first 4 billion years of the universe, cluster is 1,000 times more massive than the Milky Way.
Students, researchers, and alumni honored in the 2016 Forbes 30 Under 30 lists showcasing America’s most important young entrepreneurs, thinkers, and leaders.
Bacteria streaming through a lattice behave like electrons in a magnetic material.
Team demonstrates pure quantum-mechanical mixture of electrons and photons in the solid topological insulator bismuth selenide.
“3-D physics engine” from the Computer Science and Artificial Intelligence Laboratory simulates the human brain to infer physical properties.
First time prize is awarded in experimental nuclear physics.
MIT researchers recommend rapidly scaling up current silicon-based systems while continuing to work on other technologies.
Members of the MIT Plasma Science and Fusion Center celebrate first operations of the world's largest fusion experiment, Wendelstein 7-X.