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 ...

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

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 ...

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 ...