Physicists have spent decades chasing two grand technological dreams: harnessing fusion power and uncovering the nature of ...

A new computational breakthrough is giving scientists a clearer view into how dark matter structures evolve. Dark matter has ...

Axions are hypothetical light particles that could solve two different physics problems, as they could explain why some ...

Could future fusion reactors also serve as laboratories in which to manufacture dark matter? That’s the provocative question ...

Fusion reactors might help detect dark matter, suggests a study with contributions from a University of Cincinnati professor.

Verwohlt and her team explored "how well we could measure properties of dark matter using the 21-cm power spectrum at z > 10." ("z" is a redshift parameter astronomers use to denote how fast another ...

Physicists are exploring thorium-229’s unique properties to create a nuclear clock so precise it could detect the faintest hints of dark matter. Recent measurement advances may allow scientists to ...

A recent study by Rajendra Gupta, published in "Galaxies," proposes that cosmic phenomena conventionally ascribed to dark matter and dark energy can be explained by the temporal weakening of ...

We may have seen the first hints of strange stars powered by dark matter. These so-called dark stars could explain several of the most mysterious objects in the universe, while also giving us hints ...

The dark object has a mass a million times greater than our sun's is located 10 billion light-years away and has no stars. When you purchase through links on our site, we may earn an affiliate ...

Featuring the world’s largest digital camera, the Vera C. Rubin Observatory will capture these mysterious phenomena in more exquisite detail than ever before. MIT Technology Review Explains: Let our ...