A mysterious force called Dark Energy might be changing, in a way that challenges our current understanding of the nature of ...

With contributions from Brown faculty and students, the LUX-ZEPLIN experiment analyzed the largest dataset ever collected by a dark matter detector, and the results provide the strongest constraints ...

Astronomers have studied 3,600 supernovas to discover diversity in exploding white dwarf stars, a vital tool in the ...

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

By studying faint distortions in galaxy shapes across a vast region of sky, scientists probed the hidden structure of the universe. In the standard picture of the universe, nearly everything is hidden ...

Explore the debate surrounding a potential dark matter discovery, highlighting skepticism and the need for rigorous ...

For a quarter century, cosmology has leaned on one framework to explain how the universe expands. Known as the ΛCDM model, it assumes about 70 percent of the cosmos is filled with an unseen force ...

The Roman telescope promises to provide a clearer picture of the large-scale structure of the universe and the forces shaping ...

What is the nature of dark matter? A new experiment led by Columbia University physics professors aims to find out.

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 ...