A company aims to bring a nuclear fusion plant online in the early 2030s, but the path to this breakthrough is anything but easy.

MIT physicists magnetized antiferromagnetic material using light, potentially advancing memory chip technology.

"Antiferromagnetic materials are robust and not influenced by unwanted stray magnetic fields," says Nuh Gedik, the Donner Professor of Physics at MIT. "However, this robustness is a double-edged sword ...

This illuminated sample contains millions of lab-grown diamonds. One of the Microelectronics Science Research Center projects ...

MIT physicists have created a new and long-lasting magnetic state in a material, using only light.In a study appearing today ...

MIT scientists have found a new way to control magnetic states in materials, potentially paving the way for advancements in ...

Understanding and reliably measuring the geometric properties of quantum states can shed new light on the intricate underpinning of various physical phenomena. The quantum geometric tensor (QGT) is a ...

Achieved important progress with DUNEFermilab is the host laboratory for the Deep Underground Neutrino Experiment. This international collaboration will explore ...

Making panda stem cells, mapping a fruit fly’s brain and witnessing a black hole wake up were among the biggest achievements of the year.

Astronomers at MIT have made a groundbreaking discovery ... They then applied the method to infrared data from NASA’s ...