CMS researchers observe quantum entanglement in top quark–antiquark pairs, revealing new insights into quantum behaviour at the smallest scales Quantum entanglement is a fascinating phenomenon in ...

Physicists know that their elegant theoretical description of forces and particles — the standard model of particle physics — ...

Time evolution of the quark-antiquark pair produced by high-energy particle collisions. The pair separates in space, producing additional quark-antiquark pairs, but it still maintains the quantum ...

Some friendly competition led up to the first discovery of entanglement at the Large Hadron Collider. Andy Jung had a secret. And he wasn’t the only one. Jung and many of his colleagues on the CMS ...

Physicists at the world's largest atom smasher have observed two quarks in a state of quantum entanglement for the first time. The ATLAS experiment (A Toroidal LHC Apparatus) is the largest detector ...

Scientists at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory have uncovered experimental evidence that particles of matter emerging from energetic subatomic smashups retain a key ...

The CMS Collaboration investigated in detail events in which a top quark and an anti‑top quark are produced together in high‑energy proton–proton collisions at √s = 13 TeV, using the full 138 fb⁻¹ ...

Quantum Chromodynamics (QCD) describes the strong interaction binding quarks and gluons into hadrons. Under ordinary conditions quarks are confined, but in collisions at facilities such as RHIC and ...

NEWPORT NEWS, VA – Inside the nucleus of the atom, the building blocks of matter are anything but static. Individual particles are in a constant state of energetic motion, like dancers on a dance ...

A new debate in quantum physics is shaking the foundations of modern science. Tim Palmerargues that nature may not follow ...