Researchers are developing new ideas about the best ways to make lab-grown diamonds while minimizing other forms of carbon, ...

Quantum Kinetics Corporation (QKC) claimed that it successfully triggered plasma fusion temperatures of 392 million degrees ...

Heating a plasma for fusion research requires megawatts ... to help identify new alloys used as shielding for housing fusion applications ... In a few picoseconds (trillionths of a second ...

Tungsten, the preferred material for tokamak fusion reactors, poses challenges due to sputtering that cools plasma, making ...

Researchers are making exciting progress in developing lab-grown diamonds specifically for advanced electronics, quantum ...

First-Ever Observation of Mini-Tornadoes in Supersolid Quantum Gas In a breakthrough, scientists confirmed superfluid properties in supersolids by observing quantized vortices. Using precision ...

for which he was awarded the European Plasma Physics PhD Award. In 2019, he and Jason Parisi published the popular science book, The Future of Fusion Energy. Currently, Justin is the principal ...

When light hits the surface of some materials, namely those exhibiting a property known as photoresistance, it can induce ...

Yager’s journey as a Blazer is filled with institutional, national and international recognition; her most recent milestone ...

Scientists have demonstrated a new way to use high-energy particle smashups at the Relativistic Heavy Ion Collider (RHIC) to reveal subtle details about the shapes of atomic nuclei. The method is ...

To expand the potential use of diamond in semiconductor and quantum technologies, researchers are developing improved processes for growing the material at lower temperatures that won't damage the ...