Commonwealth Fusion Systems (CFS) is developing a tokamak device called SPARC. The company aims to demonstrate the critical ...

The development of laser–plasma accelerators began in ... the production and applications of X-ray radiation (with energy beyond 1 keV) remain extremely active in multidisciplinary fields.

A surprising discovery reveals that carbon nanotubes made from CO2 spontaneously create intense, stable plasma in ordinary ...

Plasma Engineering Lab is a division of the C. & J. Nyheim Plasma Institute focused on applications of Gliding Arc Plasma to Industry. The growing energy consumption and increasing concern in ...

Tokamak Energy receives a new 1 MW gyrotron to superheat plasma in its ST40 fusion device, advancing the development of ...

Magnetic reconnection in high-energy-density astrophysical plasmas with applications to magnetar flares and gamma-ray bursts. Quantum plasma physics ...

Yevgeny Raitses and Elena Belova were named PPPL’s 2024 Distinguished Research Fellows for their exceptional contributions to plasma physics. Their pioneering work in low-temperature plasma and fusion ...

The development marks a major step forward in laser-plasma acceleration, a promising method for making compact, high-energy particle accelerators that could have applications in particle physics ...

It uses a high-speed plasma jet of an arc discharge as a medium for high-energy plasma chemical synthesis reactions. The arc discharge and the subsequent plasma flow are generated using a coaxial ...

Now, a new and compact fusion reactor in Spain—the SMall Aspect Ratio Tokamak, or SMART—is further experimenting with ...

The Experimental Advanced Superconducting Tokamak (EAST), commonly known as China's "artificial sun," has achieved a ...

The breakthrough by the Institute of Plasma Physics (ASIPP) at the Hefei Institute of Physical Science represents a significant step forward in the quest for fusion ...