Nuclear fusion usually brings to mind sprawling facilities, blistering temperatures, and machines built on a scale that can swallow budgets whole. This device does something stranger.

X, the stellarator experiment in Greifswald, Germany, has built on knowledge gained from its predecessors to demonstrate the ...

The cost of fusion technology is likely to fall more slowly than previously predicted, raising doubts about its ability to ...

Tungsten's superior performance in extreme environments makes it a leading candidate for plasma-facing components (PFCs) in ...

Fusion power plants are sites at which electricity could be generated via a process known as nuclear fusion, which entails ...

Fusion decommissioning does not have the same problems as fission. Fusion machines will create far less radioactive waste, ...

Brit boffins have a £2.5 billion ($3.4 billion) budget for fusion power research and development, and the government agency ...

Scientists in the US have been testing spin-polarized nuclear fuel inside tokamaks operating at ...

University of Wisconsin-Madison startup Realta Fusion entered an official partnership with Japanese manufacturer Kyoto ...

Muon-catalyzed fusion is one of those strange concepts that’s been promising enough to keep ...

The aim of Alpha is to produce more energy than it uses to operate, and the lessons learned are helping to design an even ...

The MIT Plasma Science and Fusion Center (PSFC) showcased its high-temperature superconducting (HTS) magnet technology, ...