Microscopic turbulence in plasma can trigger macroscopic structural changes. In complex physical systems, such cross-scale ...

The team performed high-resolution particle simulations using the KAIROS supercomputer at the Korea Institute of Fusion ...

AI is quietly reshaping one of science’s toughest control problems—and fusion just felt the jolt. Here’s how code learned to ...

AI is rewriting the laws of physics, uncovering hidden forces, and reshaping our understanding of the universe. Discover the ...

Princeton Plasma Physics Laboratory published a new paper last week, marking significant results from the lab’s artificial intelligence research. In the paper, published in Nature Communications, PPPL ...

At the Columbia Plasma Physics Lab, researchers are tackling one of the most pressing challenges in creating clean energy: making nuclear fusion a viable power source. Unlike nuclear fission—the type ...

The Princeton Plasma Physics Laboratory (PPPL), roughly 4 miles out from campus, is a national lab run by the Department of Energy and yet remains a relatively elusive branch of Princeton’s research ...

Dark matter is an elusive type of matter that does not emit, reflect or absorb light, yet is predicted to account for most of ...

(Yicai) Sept. 22 -- China’s Experimental Advanced Superconducting Tokamak, a nuclear fusion reactor developed by the Chinese Academy of Sciences, is coming closer to realizing humanity’s dream of a ...

Resistive wall modes (RWMs) represent a class of magnetohydrodynamic (MHD) instabilities that arise in plasmas confined by conducting structures which, owing to finite electrical resistivity, do not ...

Ammonia is used in fertilizer and many industrial processes. It is also seen as a promising way to store and transport energy ...