Did primordial black holes born during the Big Bang swallow the universe's antimatter, allowing matter to dominate the cosmos?

Why didn’t the universe annihilate itself moments after the big bang? A new finding at Cern on the French-Swiss border brings us closer to answering this fundamental question about why matter ...

The hero is regular matter, which is everything we can see around us. Antimatter is the mirror-image explosive twin that ...

On Tuesday, CERN will transport antiprotons on a truck for the first time, testing the plan to deliver antimatter by road to ...

Add Yahoo as a preferred source to see more of our stories on Google. Everything we see around us, from the ground beneath our feet to the most remote galaxies, is made of matter. For scientists, that ...

Why didn’t the universe annihilate itself moments after the big bang? A new finding at Cern on the French-Swiss border brings us closer to answering this fundamental question about why matter ...

Scientists studying the tracks of particles streaming from six billion collisions of atomic nuclei at the Relativistic Heavy Ion Collider (RHIC) -- an 'atom smasher' that recreates the conditions of ...

Antimatter's foundational particles can now reportedly be better-understood thanks to a new study that cools down such particles faster for easier control and better property observance. Researchers ...

Physicists have created the heaviest clumps of antimatter particles ever seen. Known as antihyperhydrogen-4, this strange stuff could help us solve some of the most puzzling physics mysteries.

Everything we see around us, from the ground beneath our feet to the most remote galaxies, is made of matter. For scientists, that has long posed a problem: According to physicists’ best current ...