The majority of our evidence for dark matter’s existence comes from observing visible (or baryonic) matter that does not ...

Dark matter might not interact with regular particles at all, or the interaction might happen through some exotic mechanism that doesn't involve the Higgs. But those models are few and far between ...

The reason we call dark matter dark isn't that it's some shadowy ... In a nutshell, the predictions of the standard model of the universe appear to be at odds with some recent observations.

Quark Nugget Dark Matter (QNDM) models propose that dark matter could exist in the form of dense, stable objects made from quarks and gluons, known as axion quark nuggets (AQNs). These models aim ...

Scientists have taken a bold step toward understanding dark matter, the invisible force shaping the cosmos. Using atomic clocks and ultra-stable lasers, they tracked subtle changes in time to detect ...

A team of international researchers has developed an innovative approach to uncover the secrets of dark matter in the cosmos. They are searching for dark matter using atomic clocks and ...

Excessive dark matter mass may disrupt the Higgs boson Heavier dark matter challenges Standard Model physics Lighter ...

Boson stars may consist of exotic particles like axions These invisible objects could unlock dark matter's mysteries Axions ...

An international team found dark matter dominating the halos of two supermassive black holes in galaxies 13 billion light ...

Dark energy and dark matter refers to the unseen energy and ... for the accelerating expansion of the Universe. The symmetron model is one of the most compelling theories of dark energy and ...