A team from the Hefei Institutes of Physical Science, Chinese Academy of Sciences, has successfully developed a key system ...

A few more examples that recently came to our attention are Klaus Hansen, the scientist who drank heavy water to test if it ...

The Earth possesses virtually inexhaustible reserves of the raw materials—deuterium and tritium—essential for a fusion ...

A new government rapid technology assessment highlights fusion’s role in reducing reliance on fossil fuels cutting emissions ...

An international study published in the Journal of Geophysical Research: Atmospheres has provided new insights into global ...

Hydrogen may be produced from water by electrolysis at substantially greater cost than production from natural gas. The most common isotope of hydrogen is protium (name rarely used, symbol H ...

Once mastered, nuclear fusion technology has the potential to change how humanity lives by providing a limitless, sustainable ...

China's advancements in disruptive technologies are rapidly blurring the lines between science fiction and reality, from ...

Chinese scientists sustain plasma at 100 million degrees C for 1,066 seconds in EAST, advancing nuclear fusion research.

It usually requires just two fuels called deuterium and tritium, which are isotopes of hydrogen. Significant engineering challenges remain for nuclear fusion, including how to cut the cost ...

The surprise discovery that one of the lightest elements in the Universe can bind to iron under high pressure to form iron ...

A recent study of data from multiple missions shows the Red Planet may get its name from an iron mineral that formed when ...