The world’s first fully high-temperature superconducting Tokamak device, developed and constructed by Energy Singularity, known as “HH70,” has successfully achieved first plasma. HH70 has conducted ...

Mehr explores the innovative technology of China’s Experimental Advanced Superconducting Tokamak, and its implications for energy generation.

Scientists have overcome one of the "greatest uncertainties" in the operation of future fusion reactors. In order to shield the fusion plasma from impurities in the reactor walls, which greatly ...

There are a remarkable number of commercial fusion power startups, considering that it’s a technology that’s built a reputation for being perpetually beyond the horizon. Many of them focus on ...

A compact nuclear fusion reactor has reached 100 million degrees Celsius. Its makers say this represents the threshold of energy production for this reactor. The design is streamlined with thoughtful ...

Researchers at the DIII-D National Fusion Facility have identified a new method to tame ...

The Korea Institute of Fusion Energy has installed a new diverter in the KSTAR tokamak, allowing the artificial sun to sustain high-ion temperatures exceeding 100 million degrees Celsius for longer.

Tokamak Energy has given some information on the spherical fusion demonstrator which it intends to build in the UK by 2026 to demonstrate key technologies and inform the design of a prototype fusion ...

Attempts to make a viable nuclear fusion reactor have on the whole been the domain of megabucks projects supported by countries or groups of countries, such as the European JET or newer ITER projects.

Tokamak Energy has signed an agreement with Japan's Furukawa Electric to supply "several hundred kilometres" of specialist high temperature superconducting tape for its ST80-HTS prototype fusion ...

In classical descriptions, the energy loss of high-energy electrons interacting with neutral hydrogen was approximated as an average, with the electron always ending up with an intermediate energy ...