Japan’s JT-60SA fusion reactor project announced first plasma in October of this year ... Along with UK’s JET, China’s HL-2M and a range of other tokamaks at other facilities around the ...

KULR develops advanced carbon fiber cathodes for laser-based nuclear fusion, contributing to clean energy solutions.

Researchers claimed that several plasma configurations and Deuterium-Tritium concentrations were explored in JET to cover a ...

The facility is a donut-shaped tokamak, a type of fusion reactor that traps a cloud of ultra-hot plasma inside a strong magnetic field. During its record-breaking run, the JET facility used just 0 ...

Kiwi startup OpenStar's bold move to use levitating dipole reactor for fusion achieved a key milestone with its first plasma.

A group of researchers from Skoltech, Tomsk Polytechnic University, and other academic organizations in Russia and China used ...

Fusion reactors need materials that can be used at the interface with plasma, in conditions that are nothing short of extreme. The design of the experimental European reactor ITER being built in ...

Princeton Plasma Physics Laboratory has constructed a fusion reactor from parts it 3D-printed and bought off the shelf. It fits on a kitchen table. It’s a simple-sounding machine—a glass tube ...

Manufactured by Hyundai Heavy Industries, this vacuum vessel sector will provide a high-vacuum environment for fusion plasma.

The successful realization of fusion reactors relies on the ability to effectively confine charged particles with magnetic fields, as this in turn enables the control of high-energy plasma.

Researchers use a magnetic field to confine the high-temperature plasma in a fusion reactor from hitting the walls. OpenStar's approach achieves the same goal by building a magnetosphere similar ...