Seven from MIT named American Physical Society Fellows for 2022
APS honors Anna Frebel, Liang Fu, Nuh Gedik, Or Hen, Nuno Loureiro, Fredrick Seguin, and Jesse Thaler for research, applications, teaching, and leadership.
APS honors Anna Frebel, Liang Fu, Nuh Gedik, Or Hen, Nuno Loureiro, Fredrick Seguin, and Jesse Thaler for research, applications, teaching, and leadership.
Students are part of large team that achieved fusion ignition for the first time in a laboratory.
Fusion physics pioneer and MIT climate change leader Anne White hopes to help “save the world with nuclear.”
Joy Dunn ’08 helps solve the world’s greatest climate challenges while creating an open and equitable working environment.
High school student Tuba Balta engages new audiences through her MIT internship.
Longtime MIT researcher and former associate director of the Plasma Science and Fusion Center contributed to fusion energy progress on campus and around the world.
In a residency supported by the Department of Energy, the MIT PhD candidate will explore the high-field side of the DIII-D tokamak.
By studying the dynamics of plasma turbulence, MIT researchers are helping to solve one of the mysteries of the origins of cosmological magnetic fields.
New five-year agreement will support SPARC science, increase graduate students and postdocs, and support interdisciplinary work toward fusion power plants.
Linking techniques from machine learning with advanced numerical simulations, MIT researchers take an important step in state-of-the-art predictions for fusion plasmas.
After four decades at the Plasma Science and Fusion Center, Deputy Director Martin Greenwald embodies a brief history of fusion at MIT.
Zoe Fisher's undergraduate research journey leads to a role working on the SPARC tokamak.
Research scientist Alex Tinguely oversees an antenna diagnostic used on the U.K.’s record-breaking fusion experiment.
In his new lab, where he will study how plasma behaves in the universe, assistant professor of nuclear science and engineering Jack Hare draws inspiration from spelunking.
MIT researchers are testing a simplified turbulence theory’s ability to model complex plasma phenomena using a novel machine-learning technique.