Fusion energy may be one of the most promising clean power sources of the future—but only if scientists can precisely measure the extreme, fast-moving plasmas that make it possible. A new U.S.

Proxima Fusion has signed the agreement to put the world’s first commercial stellarator fusion power plant on the grid in ...

The U.S. government has launched the process to develop a regulatory framework to develop fusion machines as emerging nuclear ...

The U.S. Nuclear Regulatory Commission (NRC) has proposed the first dedicated federal licensing framework for commercial ...

Proxima Fusion, a Munich-based nuclear energy startup, has outlined plans to raise about €2 billion to build a major fusion test facility in Germany that could be a milestone on the path to ...

Munich-based Proxima Fusion has signed an agreement with the Free State of Bavaria, RWE, and Max Planck Institute for Plasma ...

Deep Fission partners with Urenco USA to secure low-enriched uranium (LEU) for its innovative "Gravity" reactor.

Romania’s state nuclear utility Nuclearelectrica has approved a final investment decision (FID) for a 462‑MWe six-module ...

New simulations from Princeton Plasma Physics Laboratory suggest that deliberately engineering plasma rotation inside tokamak fusion reactors could dramatically reduce the heat loads that destroy ...

Scientists have long seen a puzzling pattern in tokamaks, the doughnut-shaped machines that could one day reliably generate electricity from fusing atoms. When plasma particles escape the core of the ...

It is no longer a hypothetical goal in the commercial fusion machine of the private sector to reach temperatures of 150 million degrees Celsius. Helion Energy reports that its seventh-generation ...