Tuning in to invisible waves on the JET tokamak
Research scientist Alex Tinguely oversees an antenna diagnostic used on the U.K.’s record-breaking fusion experiment.
Research scientist Alex Tinguely oversees an antenna diagnostic used on the U.K.’s record-breaking fusion experiment.
Improvements in the material that converts X-rays into light, for medical or industrial images, could allow a tenfold signal enhancement.
Discovery shows for the first time that multiferroic properties can exist in a two-dimensional material; could lead to more efficient magnetic memory devices.
Early-career researchers honored for creativity, innovation, and research accomplishments.
Researchers with the KATRIN experiment determine that neutrinos are lighter than 0.8 eV/c2.
Scientists including MIT’s Jacqueline Hewitt and Nicholas Kern share long-awaited results, getting closer to the universe’s first stars.
National Science Foundation award will allow the VELION FIB-SEM to become a permanent instrument in MIT.nano’s characterization facility.
Assistant dean for diversity, equity, and inclusion at the MIT School of Science answers three questions about the work ahead.
Senior Sihao Huang uses his background in physics and complex systems to inform his interdisciplinary approach to political science.
Thermal span in a layered compound promises applications in next-generation electrical switches and nonvolatile memory.
Geophysicists Camilla Cattania and William Frank team up to explore the tectonics and fault mechanics behind earthquakes, and their associated hazards.
Eight postdocs and research scientists within the School of Science honored for contributions to the Institute.
The new qubits stay in “superposition” for up to 10 seconds, and could make a promising foundation for quantum computers.
New work on superconducting kagome metal will aid design of other unusual quantum materials, with many potential applications.
The findings could redefine the kinds of particles that were abundant in the early universe.