MIT turns “magic” material into versatile electronic devices
Work on three graphene-based devices may yield new insights into superconductivity.
Nanowire could provide a stable, easy-to-make superconducting transistor
Inspired by decades-old MIT research, the new technology could boost quantum computers and other superconducting electronics.
Physicists create tunable superconductivity in twisted graphene “nanosandwich”
Structure may reveal conditions needed for high-temperature superconductivity.
Transforming quantum computing’s promise into practice
Electrical engineer William Oliver develops technology to enable reliable quantum computing at scale.
Ultracold atoms reveal a new type of quantum magnetic behavior
The findings may help researchers design “spintronic” devices and novel magnetic materials.
Explained: Quantum engineering
Quantum computers could usher in a golden age of computing power, solving problems intractable on today’s machines.
Cracking the secrets of an emerging branch of physics
In a new realm of materials, PhD student Thanh Nguyen uses neutrons to hunt for exotic properties that could power real-world applications.
For Thomas Searles, a passion for people and science at HBCUs and MIT
Physicist and Martin Luther King Jr. Scholar is examining the optical properties of semimetals to understand how light interacts with quantum materials.
Lighting up the ion trap
Fiber optics built into a chip can deliver all the laser light needed to control ions for quantum computing and sensing.
Daniel Harlow awarded Packard Foundation Fellowship
Physics professor receives one of the most prestigious nongovernmental awards for early-career scientists.
Generating photons for communication in a quantum computing system
New technique provides a means of interconnection between processors, opening the way to a complete quantum computing platform.
Six strategic areas identified for shared faculty hiring in computing
New faculty in these areas will connect the MIT Schwarzman College of Computing and a department or school.
MIT partners with national labs on two new National Quantum Information Science Research Centers
Co-design Center for Quantum Advantage and Quantum Systems Accelerator are funded by the U.S. Department of Energy to accelerate the development of quantum computers.
Cosmic rays may soon stymie quantum computing
Building quantum computers underground or designing radiation-proof qubits may be needed, researchers find.
MIT researchers lead high school educational initiative on quantum computing
“Qubit by Qubit” introduces high school students to quantum computing through a week-long summer camp and a year-long course.