Seeing an elusive magnetic effect through the lens of machine learning
An MIT team incorporates AI to facilitate the detection of an intriguing materials phenomenon that can lead to electronics without energy dissipation.
Making quantum circuits more robust
Researchers have developed a technique for making quantum computing more resilient to noise, which boosts performance.
MIT.nano receives grant to acquire focused ion beam scanning electron microscope
National Science Foundation award will allow the VELION FIB-SEM to become a permanent instrument in MIT.nano’s characterization facility.
Tiny materials lead to a big advance in quantum computing
Using ultrathin materials to reduce the size of superconducting qubits may pave the way for personal-sized quantum devices.
Vibrating atoms make robust qubits, physicists find
The new qubits stay in “superposition” for up to 10 seconds, and could make a promising foundation for quantum computers.
A new language for quantum computing
Twist is an MIT-developed programming language that can describe and verify which pieces of data are entangled to prevent bugs in a quantum program.
Physicists discover “secret sauce” behind exotic properties of a new quantum material
New work on superconducting kagome metal will aid design of other unusual quantum materials, with many potential applications.
Sensor based on quantum physics could detect SARS-CoV-2 virus
Mathematical simulations show the new approach may offer faster, cheaper, and more accurate detection, including identifying new variants.
How ultracold, superdense atoms become invisible
A new study confirms that as atoms are chilled and squeezed to extremes, their ability to scatter light is suppressed.
MIT Lincoln Laboratory wins nine R&D 100 Awards for 2021
A life-detecting radar, a microscale motor, and a quantum network architecture are among this year's most innovative new technologies.
New material could be two superconductors in one
Work has potential applications in quantum computing, and introduces new way to plumb the secrets of superconductivity.
Gene Dresselhaus, influential research scientist in solid-state physics, dies at 91
Over 50 years at MIT, Dresselhaus made lasting contributions to materials science within the research group of longtime collaborator and wife, Mildred Dresselhaus.
Creating dynamic symmetry in quantum systems
MIT researchers develop a new way to control and measure energy levels in a diamond crystal; could improve qubits in quantum computers.
Refugee learners aim to lift up their communities
MIT Refugee Action Hub celebrates the graduation of its third and largest cohort yet.
Pablo Jarillo-Herrero receives Max Planck-Humboldt Research Award
The Max Planck Society and Alexander von Humboldt Foundation honor the MIT physicist's work on two-dimensional quantum materials.