Zap Energy has generated pressure that's 10 times stronger than the bottom of the Mariana Trench, a new milestone in its race ...

Zap Energy’s approach, known as sheared-flow-stabilized Z-pinch fusion, differs from massive tokamaks or laser-driven ...

Zap Energy's Fuze-3 device has generated record plasma pressures for the startup's unique approach to fusion power.

Nuclear fusion, which operates on the same principle that powers the sun, is expected to become a sustainable energy source ...

Zap Energy’s FuZE-3 device has reached giga-pascal-level plasma pressures thanks to a novel design that independently tunes acceleration and compression. These early results suggest rapid progress ...

For decades, scientists have been working to develop reactors that can achieve fusion to meet the increasing need for clean and limitless energy. The success of such experiments depends on multiple ...

Combining ECCD and RMP provides greater flexibility and control over fusion plasma. The technique allows for precise adjustment of magnetic islands in the plasma, optimizing edge stability. This ...

China’s HL-3 fusion device in Chengdu has surpassed 100m degrees, achieving key plasma stability and energy retention for ...

Accurate and fast calculation of heat flow (heat transport) due to fluctuations and turbulence in plasmas is an important issue in elucidatingthe physical mechanisms and in predicting and controlling ...

For the prospect of limitless, clean energy produced through nuclear fusion to become a reality, scientists need the reactions at the heart of the technology to become self-sustaining, and newly ...

Across decades of development, scientists have been pursuing nuclear fusion technology through endless experiments, calculations and simulations, trying to find the optimal mix of conditions for atoms ...