Researchers introduce a new generation of tiny, agile drones
The technology could boost aerial robots’ repertoire, allowing them to operate in cramped spaces and withstand collisions.
The technology could boost aerial robots’ repertoire, allowing them to operate in cramped spaces and withstand collisions.
Inspired by decades-old MIT research, the new technology could boost quantum computers and other superconducting electronics.
Unconventional form of ferroelectricity could impact next-generation computing.
Assistant Professor Cathy Wu aims to help autonomous vehicles fulfill their promise by better understanding how to integrate them into the transportation system.
Electrical engineer William Oliver develops technology to enable reliable quantum computing at scale.
Three MIT professors and a principal staff member from Lincoln Laboratory are among the 2021 class of fellows.
Historic effort to eradicate blindness marks major milestone with leading scientists recognized for pioneering work.
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.
Quantum computers could usher in a golden age of computing power, solving problems intractable on today’s machines.
The results should help scientists study the viscosity in neutron stars, the plasma of the early universe, and other strongly interacting fluids.
Fabric samples are headed to the International Space Station for resiliency testing; possible applications include cosmic dust detectors or spacesuit smart skins.
The instrument could bring powerful sensing and imaging capabilities out of the lab and into hospitals, airports, or other settings.
New technique provides a means of interconnection between processors, opening the way to a complete quantum computing platform.