MIT and U.S. Department of Defense team up to launch a new edX learning platform
MIT offers first courses on the platform, which aims to serve cutting-edge manufacturing education to more Americans.
MIT offers first courses on the platform, which aims to serve cutting-edge manufacturing education to more Americans.
Yichen Shen PhD '16 is CEO of Lightelligence, an MIT spinout using photonics to reinvent computing for artificial intelligence.
Design of miniature optical systems could lead to future cell phones that can detect viruses and more.
The advance could improve energy efficiency of data centers and lighten the load for electronics-rich vehicles.
The design may enable miniature zoom lenses for drones, cellphones, or night-vision goggles.
MassBridge will create curriculum for the advanced manufacturing needs of today’s economy.
The design, which uses entangled atoms, could help scientists detect dark matter and study gravity’s effect on time.
The findings may help researchers design “spintronic” devices and novel magnetic materials.
The advance could cut production costs and reduce the size of microelectronics for sensing and communication.
The results should help scientists study the viscosity in neutron stars, the plasma of the early universe, and other strongly interacting fluids.
Fiber optics built into a chip can deliver all the laser light needed to control ions for quantum computing and sensing.
MIT engineers develop a hybrid process that connects photonics with “artificial atoms,” to produce the largest quantum chip of its type.
IEEE, SPIE, and OSA will support students within a new program launched in collaboration with MIT’s Initiative for Knowledge and Innovation in Manufacturing.
Simple chip powered by quantum dots allows standard microscopes to visualize difficult-to-image biological organisms.
MIT researchers grow perfectly shaped germanium tunnels on silicon oxide with controllable length.