Today, many fusion reactors rely on deuterium and tritium—heavy isotopes of hydrogen—to power fusion reactions. But where did this idea come from? Although the Manhattan Project makes mention of the ...

This publication provides an overview of plasma physics and technology aspects of the Deuterium-Tritium fuel cycle in magnetic fusion devices, from ITER to demonstration fusion power plants. The ...

Fusion energy is that released when two light nuclei combine to form a single heavier one (nuclear fusion reaction). Fusion energy-based power generation (fusion power plant) uses the energy generated ...

A Los Alamos collaboration has replicated an important but largely forgotten physics experiment: the first deuterium-tritium (DT) fusion observation. As described in the article published in Physical ...

After the National Ignition Facility in California's first successful scientific breakeven through nuclear fusion, mankind is all the more serious about reaching the promised land of near-limitless ...

The U.S. and China lead global efforts to make nuclear fusion commercially viable, with billion-dollar projects aiming for net-positive energy. Los Alamos scientists successfully recreated a 1938 ...

Tritium is ridiculously rare, incredibly expensive, and central to most fusion energy reactor designs. If research out of Los Alamos National Lab proves to hold true, it might soon become easier to ...

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 until ...