A mysterious excess of far-ultraviolet light seen across the Milky Way could come from the annihilation of clumpy dark matter ...

In addition, astrophysical observations had revealed that occasionally, white dwarfs would cool off way faster than expected.

A professor at the University of Cincinnati and his colleagues have figured out something two of America's most famous ...

A new theoretical study suggests fusion reactors could do more than generate energy, they might also produce particles linked to dark matter. Researchers at the University of Cincinnati say they have ...

In recent years, astronomers have become increasingly interested in a theoretical particle known as the axion, which was ...

The James Webb Space Telescope is starting to turn a long‑standing cosmic mystery into something that looks almost tangible.

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

Explore the elusive nature of dark matter, its indirect evidence, and the latest LUX-ZEPLIN detector advancements in the ...

Thanks to gravity, at least we're aware dark matter exists. We also know it's eerily abundant, accounting for about 85 percent of all matter in the Universe. Aside from that, though, we're pretty ...

Researchers have been looking at everything, including supernovas, trying to uncover the mysteries of dark matter. Recent scientific studies suggest that dark matter might not be a particle hiding in ...

Because we haven't found anything yet, we've started to wonder if dark matter might be lighter or heavier than we thought. When you purchase through links on our site, we may earn an affiliate ...