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 ...

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

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

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 ...

On Tuesday, the people managing the ITER experimental fusion reactor announced that a combination of delays and altered priorities meant that its first-of-its-kind hardware wouldn't see plasma ...

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's LM26 reactor prototype has been 16 months in the making. ... it hits hydrogen isotopes containing extra neutrons called Deuterium and Tritium with electricity.

While there will be no tritium fuel shortage for several decades, eventually there will be a crippling fuel problem because of shortcomings in tritium replenishment. The solution is to generate and ...

The world’s largest and most powerful superconducting electromagnet is ready to become the pulsing “heart” inside of a massive tokamak nuclear fusion reactor.Developed over 40 years in ...