Before the quark and antiquark destroy each other, they may form a very brief, intermediate particle. Particle physicists think that this intermediary particle may be the rho meson, a particle ...

and a quark-containing particle called an "antilambda." Now, ALICE has followed this with the detection of a heavier anti-hypernuclei particle, antihyperhelium-4, composed of two antiprotons ...

In a major milestone for particle physics, scientists at CERN’s Large Hadron Collider (LHC) have successfully observed top ...

The Large Hadron Collider Beauty (LHCb) collaboration has observed a type of four-quark particle never seen before. The discovery, presented at a recent seminar at CERN and described in a paper ...

Bridging the gap between quantum technologies and fundamental sciences opens pathways for groundbreaking innovations in both domains. In high-energy ...

Along with quantum mechanics, Einstein's special theory of relativity serves as the basis of the Standard Model of particle physics ... that the rate at which top-quark pairs are produced in ...

Physicists know from previous experiments that what happens at the nuclear scale to protons and neutrons also affects their ...

This is possible because just as a RHIC collision can kick an energetic quark or gluon free, that interaction can also produce a high energy photon, or particle of light. These direct photons are ...

There are, however, six different types of quarks which combine in different ways to form other kinds of particle. Those that have been detected so far contain at most, one heavy quark.

Using two powerful supercomputers, Riken has predicted the existence of an exotic six-quark particle, an event that could shed light on how matter is formed. As stated, each atom consists of a nucleus ...

quark states. To be able to identify that a particle is a glueball, its mass, decay width and spin as well as its decays to mesons containing di?erent combinations of light quarks should to be ...