Scientists have achieved an incredible feat—mapping the forces inside a proton with extreme precision, uncovering the immense ...

Professor Claudia Ratti explains about quarks and gluons, including the so-called Quark-Gluon Plasma, plus Quantum ...

For the first time, researchers have used lattice quantum chromodynamics to study the interior of neutron stars, obtaining a new maximum bound for the speed of sound inside the star and a better ...

The protons and neutrons themselves are the basic bound states of quarks in the universe; how these states are formed from quarks interacting with the gluonic field described by Quantum Chromodynamics ...

Multiscale nuclear phenomena have been observed for a long time, but tying these phenomena closer to the fundamental theory of the strong nuclear force, quantum chromodynamics, has been a ...

They aim to improve the sensitivity by a factor of several hundred so as to be able to detect axions with properties predicted by the theory of Quantum Chromodynamics. Lead author Dr. Jack ...

In a groundbreaking discovery, scientists have revealed an unprecedented map of the forces acting within a proton. This map ...

Quantum chromodynamics (QCD), meanwhile, is the theory of the strong nuclear force. Transmitted by bosons called gluons, this strong, very short-range force binds quarks together to make particles ...

"We have used a powerful computational technique called lattice quantum chromodynamics to map the forces acting inside a proton," said Associate Professor Ross Young, Associate Head of Learning ...

"We have used a powerful computational technique called lattice quantum chromodynamics to map the forces acting inside a proton," added co-author Associate Professor Ross Young, also at the ...