Increasing the surface area when plasma and water interact could help scale up a technology that destroys contaminants such ...

Electron beam generated plasmas constitute a refined method for producing ionised gases, achieved by directing a high-energy electron beam into a neutral gas. The non-equilibrium ionisation caused by ...

Nuclear fusion, which operates on the same principle that powers the sun, is expected to become a sustainable energy source ...

Researchers at CERN may be on the verge of explaining the universe’s missing gamma rays and hidden magnetic fields.

The development of current drive techniques in plasma physics has advanced significantly over recent years, offering promising routes for non-inductive current generation in both experimental and ...

Developed in collaboration with the Max Planck Institute for Plasma Physics specifically for the Wendelstein 7-X stellarator, Thales's TH1507U gyrotron has achieved a significant milestone by reaching ...

The Princeton Plasma Physics Laboratory has delivered a four-ton X-ray imaging crystal spectrometer to Japan's JT-60SA ...

The SMART tokamak - an experimental fusion device designed, built and operated by the Plasma Science and Fusion Technology Laboratory of the University of Seville, Spain - has generated its first ...

Physicists used a machine-learning method to identify surprising new twists on the non-reciprocal forces governing a many-body system. The journal PNAS published the findings by experimental and ...

Rice University researchers have captured the temperature profile of quark-gluon plasma, the ultra-hot state of matter from the dawn of the universe. By analyzing rare electron-positron emissions from ...

China’s HL-3 fusion device in Chengdu has surpassed 100m degrees, achieving key plasma stability and energy retention for ...

The possibility of generating useful amounts of electricity by blowing hot gas between the poles of a magnet has long intrigued adventurous physicists. Many have tried to turn the trick, but until Dr.