China is leading the pack when it comes to developing nuclear power, and its 'artificial sun' is set to pave the way for many ...

In the concrete pit of the world’s largest fusion experiment, a magnet taller than a four-story building now stands fully ...

At a time when our need for electricity is growing rapidly, why are we creating a system based on intermittent wind and solar generated power? In 2025 U.S. spending on renewable energy ...

In May 2026, the United States completed delivery of the last of six superconducting magnet modules built in San Diego to the ...

Take a look inside ITER, the world's largest fusion energy project, to see how scientists from around the world are working to recreate the Sun's superpower on Earth to fuel a clean energy revolution.

Workers and assembly crews continue installation activities inside the International Thermonuclear Experimental Reactor (ITER) tokamak complex in Cadarache, France. The multinational fusion ...

The final components of ITER's central solenoid magnet -- a 59-foot, 3,000-tonne superconducting system 15 years in the making -- have arrived in France, clearing a major path toward first plasma.

Interlune test engineer Alex Lewandowski and mechanical engineer Jessica Wu check test equipment for the mass spectrometer system in the Regolith Lab at the company’s Seattle headquarters. (Interlune ...

Explore how fusion reactors, ITER tokamaks, plasma confinement, and deuterium tritium fuel work together to unlock net energy gain and deliver reliable, large-scale clean energy. Pixabay, ...

Scientists around the world are making progress as they try different techniques to bring commercial fusion energy to fruition. Much of the discussion about nuclear fusion has long revolved around its ...