A groundbreaking collaboration between Los Alamos scientists and Duke University has resurrected a nearly forgotten 1938 ...

Physicists confirm DT fusion insights from a 1938 experiment. The findings connect past theory with current fusion efforts. A ...

Two Los Alamos Laboratory scientists discovered Arthur Ruhlig’s major contributions to fusion physics, and they did so ...

Breakthroughs from two rival experiments, Germany’s Wendelstein 7-X and the Joint European Torus, suggest the elusive dream ...

The need for limitless, clean energy has pushed scientists to explore efficient fusion reactor designs. Now, the world’s most advanced tokamak has achieved stable Deuterium-Tritium plasmas ...

The current AI race has reached a bottleneck that can be relieved only by new sources of electrical generation. Read more ...

ITER engineers expect their tokamak reactor to generate 500 megawatts (Mw) of fusion power using just 50 Mw of input heating–compared with a nuclear fission reactor ’s roughly 1,000 Mw of ...

Plans call for first-generation fusion reactors to use a mixture of deuterium and tritium — heavy types of hydrogen. In theory, with just a few grams of these reactants, it is possible to produce a ...

General Fusion has been working on its unique approach to producing clean energy for two decades, and it's now got something major to show for it. The company has created plasma in its prototype ...

With their innovative design, tokamak reactors are leading the charge in fusion research, aiming to unlock the potential of nuclear fusion for global energy needs.

The reactor, called Lawson Machine 26 (LM26), is General Fusion’s latest iteration in a string of devices that have tested various parts of its unique approach.