RIKEN physicists have devised a theoretical method to probe elusive Majorana fermions in topological superconductors by ...

Physicists are tapping into the strange world of quantum sensors to revolutionize particle detection in the next generation ...

Antimatter is one of the most mystifying concepts in modern physics. When particles of antimatter interact with normal matter ...

Quasicrystals, exotic states of matter characterized by an ordered structure with non-repeating spatial patterns, have been ...

As the world gears up for more powerful particle colliders, new 4D quantum sensors tested at Fermilab promise sharper ...

Researchers at the Large Hadron Collider found evidence of an unprecedentedly heavy and exotic form of antimatter in the aftermath of a collision between extremely fast lead ions ...

To learn more about the nature of matter, energy, space, and time, physicists smash high-energy particles together in large ...

The discovery of the new antihypernucleus could help scientists better understand the state of the universe just a millionth of a second after the Big Bang.

Upgrades and new research at Argonne National Laboratory are helping physicists push boundaries, from basic science to the ...

As if atoms weren’t already mind-blowingly small, never mind subatomic particles, CERN researchers in the CMS Collaboration were sifting through data from the Large Hadron Collider (LHC) and ...

Physicists have placed a new limit on how big the elusive neutrino can be—one of the universe’s smallest known particles—a limit that makes other subatomic particles look as big as black ...