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

Scientists at the PHENIX experiment at RHIC have uncovered compelling evidence that even collisions involving small nuclei ...

A recent NASA report suggests that countless tiny particles could be coming together to create an invisible, foam-like dark matter right in the middle of our ...

Detecting dark matter, the elusive type of matter predicted to account for most of the universe's mass, has so far proved to ...

The discovery could help scientists get closer to understanding the mysterious invisible matter that makes up the bulk of our ...

Scientists suggest paraparticles, a quasiparticle class, potentially redefining physics by challenging the fermion and boson ...

These two properties of axions mean that they are exceptionally good at collapsing down to incredibly high densities, pulled ...

Contemporary physics still wrestles with a question posed by philosophers millenia ago: What is the universe made of?

If a particle of dark matter is too heavy, it would affect the mass of the Higgs boson to the point that the boson could no longer interact with other particles, and the halting of so many ...

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

Join six leading experts to find out everything we know about the subatomic universe. Take a deep dive into the building ...

Only 5% of all visible matter in the universe is baryonic matter, while the remaining 95% consists of dark matter and dark energy.