The Princeton Plasma Physics Laboratory (PPPL) has launched a computing platform titled Simulation, Technology, ...

Using the Super Proton Synchrotron, the team created beams of electron-positron pairs and passed them through a meter-long region of plasma. This setup served as a scaled laboratory version of a ...

Terahertz (THz) radiation, situated between the microwave and infrared regions of the electromagnetic spectrum, has emerged as a pivotal tool in plasma physics research. The generation of intense, ...

What if the next new theory of the universe didn’t come from a human mind, but from an artificial one? In a development that has left the scientific community both awestruck and unsettled, artificial ...

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 ...

Nuclear fusion, which operates on the same principle that powers the sun, is expected to become a sustainable energy source for the future. To achieve fusion power generation, it is essential to ...

Startorus Fusion, a Chinese startup that leverages artificial intelligence (AI) to enhance fusion performance, ...

Plasma science and technology are undergoing a period of significant growth, supported by advances in plasma sources, high-precision diagnostics, modelling capabilities, and computational tools.

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 ...