Scientists generated the plasma using gas targets—short bursts of gas released into a vacuum chamber—which allowed them to precisely tune the density of the plasma they created by adjusting ...

Fusion for Energy (F4E), the organisation managing Europe’s contribution to the International Thermonuclear Experimental ...

A quartz tube containing a microwave ionization chamber receives air for introduction. The 2.45 GHz radio wave frequencies inside the chamber create plasma by removing electrons from air-based atoms.

Laberge lined an inner fuel chamber with polycarbonate to absorb the shock wave. When the scientist detonated the devices in ...

By synchronising the optical laser, researchers captured detailed images of the instability. Scientists generated the plasma using gas targets – short bursts of gas released into a vacuum chamber – ...

Scientists sustained nuclear fusion plasma for 22 minutes, marking significant progress in sustainable clean energy research.

The Brookhaven laser allowed the team to control where the electrons traveled within the plasma by directing energy deposits. This capability enabled them to position the electrons in a region where ...

This serves as a combustion chamber. Hot hydrogen plasma is fed into it. The chamber is then compressed using mechanical pistons. The compression compresses the plasma and heats it to around 100 ...

Plasma physics is the study of a state of matter comprising charged particles. Plasmas are usually created by heating a gas until the electrons become detached from their parent atom or molecule ...