MIT physicists discover a new type of superconductor that’s also a magnet
The “one-of-a-kind” phenomenon was observed in ordinary graphite.
A cool new way to study gravity
A technique developed at MIT enables a new class of experiments that could finally let physicists test whether gravity needs to be described by quantum theory.
Professor Emeritus Earle Lomon, nuclear theorist, dies at 94
On the physics faculty for nearly 40 years and a member of the Center for Theoretical Physics, he focused on the interactions of hadrons and developed an R-matrix formulation of scattering theory.
Physicists discover — and explain — unexpected magnetism in an atomically thin material
The work introduces a new platform for studying quantum materials.
New computational chemistry techniques accelerate the prediction of molecules and materials
With their recently-developed neural network architecture, MIT researchers can wring more information out of electronic structure calculations.
A new approach to fine-tuning quantum materials
An MIT-led group shows how to achieve precise control over the properties of Weyl semimetals and other exotic substances.
MIT researchers discover “neutronic molecules”
Study shows neutrons can bind to nanoscale atomic clusters known as quantum dots. The finding may provide insights into material properties and quantum effects.
Technique could improve the sensitivity of quantum sensing devices
The method lets researchers identify and control larger numbers of atomic-scale defects, to build a bigger system of qubits.
MIT researchers observe a hallmark quantum behavior in bouncing droplets
In a study that could help fill some holes in quantum theory, the team recreated a “quantum bomb tester” in a classical droplet test.
Canceling noise to improve quantum devices
MIT researchers develop a protocol to extend the life of quantum coherence.
Sensing and controlling microscopic spin density in materials
By fine-tuning the spin density in some materials, researchers may be able to develop new quantum sensors or quantum simulations.
New quantum magnet unleashes electronics potential
Researchers discover how to control the anomalous Hall effect and Berry curvature to create flexible quantum magnets for use in computers, robotics, and sensors.
International team reports powerful tool for studying, tuning atomically thin materials
Work could lead to heady applications in novel electronics and more.
Professor Emeritus Roman Jackiw, “giant of theoretical physics,” dies at 83
Over more than 50 years at MIT, he made fundamental contributions to quantum field theory and discovered topological and geometric phenomena.
Three Spanish MIT physics postdocs receive Botton Foundation fellowships
Recipients Luis Antonio Benítez, Carolina Cuesta-Lazaro, and Fernando Romero López receive support for their scientific research.