Wave-particle interactions across the solar system can have a wide range of effects though they are caused by the same set of ...

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 ...

In the blink of an eye, the unruly, superheated plasma that drives a fusion reaction can lose its stability and escape the strong magnetic fields confining it within the donut-shaped fusion reactor.

Microscopic turbulence in plasma can trigger macroscopic structural changes. In complex physical systems, such cross-scale interactions—between different spatial and temporal scales—are known as ...

For all the problems AI is causing society, one of its greatest benefits lies in the world of science. A new study focused on the chaotic dynamics of dusty plasmas found that, when trained properly, ...

Electron beam generated plasmas constitute a refined method for producing ionised gases, achieved by directing a high-energy electron beam into a neutral gas. The non-equilibrium ionisation caused by ...

Researchers provide experimental data about how radiation travels through dense plasmas. Their data will improve plasma models, which allow scientists to better understand the evolution of stars and ...

Plenty of research happens in labs, at computer stations, in libraries and coffee shops and in fields of many kinds. Some of it must happen far beyond the beaten path. Such is the case if you are a ...

Groundbreaking scientific findings on how swirling matter can form stars, planets and supermassive black holes earned a team ...

A team from the Princeton Plasma Physics Laboratory and Princeton University is the winner of the prestigious 2025 John ...