Hyperprecise measurement with Bose-Einstein condensates
New atom interferometer could measure inertial forces with record-setting accuracy.
New atom interferometer could measure inertial forces with record-setting accuracy.
MIT researchers propose a new method for verifying the existence of a theoretical quasiparticle.
New observations confirm an 80-year-old quantum theory.
Plasma Science and Fusion Center researcher figures out the kink in the crab.
Rising Stars event features research presentations, panel discussions on academic life.
Upgrades make detectors more sensitive to gravitational waves.
Matthew Cavuto, Zachary Hulcher, Kevin Zhou, and Daniel Zuo will pursue two years of study in the U.K.
Exotic materials called photonic crystals reveal their internal characteristics with new method.
Low-power tabletop source of ultrashort electron beams could replace car-size laboratory devices.
Green, Ketterle, Nedivi, and Shrobe are among those recognized for their efforts toward advancing science.
Relatively simple quantum computers could be much more powerful than previously realized.
Grad student Libby Tolman melds the elegance of theoretical physics with practical applications of nuclear science.
Technique may enable large-scale atom arrays for quantum computing.
MIT alumni and the MIT-Chile Program are bringing unique learning opportunities to Chilean high school students in a partnership with two major Santiago universities.
MIT researchers use an optical technique to probe magnetism at a hidden interface between two exotic thin films.