Enhanced nuclear energy online class aims to inform and inspire
Revamped version of MITx MOOC includes new modules on nuclear security, nuclear proliferation, and quantum engineering.
Revamped version of MITx MOOC includes new modules on nuclear security, nuclear proliferation, and quantum engineering.
The X-ray-focusing lens used in the experiment is based on a design used in lighthouses for centuries.
New lens technique spots tiny dwarf galaxy in the first, super-energetic stages of star formation.
Studying a common material at room temperature, researchers bring quantum behavior “closer to our daily life.”
Ultrathin coating could protect 2D materials from corrosion, enabling their use in optics and electronics.
Scientists simulate early galaxy formation in a universe of dark matter that is ultralight, or “fuzzy,” rather than cold or warm.
MIT researchers discover why magnetism in certain materials is different in atomically thin layers and their bulk forms.
Revolutionizing video games with physics, Weaver has also influenced MIT students with lessons on design, virtual reality, storytelling, and games for social change.
MIT planetary scientists partner with computer scientists to find exoplanets.
Matthew Evans, Joseph Formaggio, Markus Klute, and Anne White are named MIT’s newest APS fellows for their contributions to physics.
Joseph Formaggio explains the discovery that the ghostly particle must be no more than 1 electronvolt, half as massive as previously thought.
New detection tool could be used to make quantum computers robust against unwanted environmental disturbances.
New 22-ENG undergraduate degree provides expansive vision of nuclear studies and nuclear careers.
The honor recognizes the "stellar achievement" of the people behind the exoplanet-seeking satellite.
Results support Einstein’s theory and the idea that black holes have no “hair.”