New fusion research reveals how plasma can spontaneously generate its magnetic field, in a fundamental breakthrough.

The illustration depicts an intense laser field (red wave) interacting with Deuterium and Tritium nuclei. By modifying the collision energy distribution, the laser field facilitates quantum tunneling ...

A nuclear engineer breaks down how laser-based fusion works, what megaprojects are trying to achieve, and what’s realistic vs ...

The world’s only net-positive fusion experiment has been steadily ramping up the amount of power it produces, TechCrunch has learned. In recent attempts, the team at the U.S. Department of Energy’s ...

Physicists are teasing a potential leap in nuclear fusion that sounds almost absurd on its face: a path to reactions that are “billion times” more efficient by swapping today’s ultra-short, ...

Three years ago, scientists at Lawrence Livermore National Laboratory in California had a scientific breakthrough: As they fired lasers at a tiny pellet of fuel, they achieved fusion “ignition” for ...

A $160 million laser research facility being built at Colorado State University will position the university at the center of ...

Forward-looking: While the path to practical fusion energy remains long, the recent advances at the National Ignition Facility have emboldened researchers. The facility's ongoing progress is a ...

A memorandum of understanding has been signed by representatives from politics, business and science aimed at establishing a laser-based nuclear fusion power plant at the former Biblis nuclear power ...

China's Experimental Advanced Superconducting Tokamak achieved a sustained temperature of 100 million degrees Celsius, marking a significant milestone in nuclear fusion research. The potential of ...

Opportunities to invest in commercial nuclear fusion are limited for now, but these companies stand to benefit from their ...