Gluons

The hypothetical force particles believed to bind quarks into “elementary” particles. Although theoretical models in which the strong interactions of quarks are mediated by gluons have been successful in predicting, interpreting, and explaining many phenomena in particle physics, free gluons remain undetected in experiments (as do free quarks). According to prevailing opinion, an individual gluon cannot be isolated.

According to quantum chromodynamics (QCD), the mediators of the strong interaction are eight massless vector bosons, which are named gluons because they make up the “glue” that binds quarks together. It is hoped that the infinite range of the forces mediated by the gluons may help to explain why free quarks have not been isolated. The gluons themselves carry color. Hence, strong interactions among gluons will also occur through the exchange of gluons. It is therefore believed that gluons, as well as quarks, may be permanently confined. According to this view, only colorless objects may exist in isolation. See Elementary particle, Quantum chromodynamics, Quarks

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References in periodicals archive

Karsch, "The phase transition to the quark gluon plasma: Recent results from lattice calculations," Nuclear Physics A, vol.

Observation of Gaussian Pseudorapidity Distributions for Produced Particles in Proton-Nucleus Collisions at Tevatron Energies

When he makes his arguments in favor of gluons, which, again, both specify and resolve the unity of an entity, Priest accuses Aristotle of an oversight.

Relative unity in an undone world: paraconsistence and the meaning of being

the indexes a and b are gluons indexes, i and j color indexes and a is critical length, [??] = c = 1.

The dual behavior of quantum fields and the Big Bang

In this new work, Wang's team refined a probe that makes use of a phenomenon researchers at Berkeley Lab first theoretically outlined 20 years ago: energy loss of a high-energy particle, called a jet, inside the quark gluon plasma.

Big Bang: Closer Look at the Perfect Fluid

Physicists still want to determine Z(4430)'s internal structure: It could be a union of two mesons or a true tetraquark--four quarks bound together by gluons. "There's so much activity going on right now," Shepherd says.

Exotic particle packs a foursome of quarks: tetraquarks could help physicists understand the universe's first generations of matter

Physicists had postulated that all protons and neutrons are made up of three quarks, along with the gluons that bind them together.

A custom BGA for particle physics experiments: how a novel high-yield package cut costs by 32% vs. COB

Chapters 3 to 6 discuss key steps following the current algebra proposal--notably its important experimental implications as well as the deep conceptual challenges it had to face--and the resulting difficult emergence of the fundamental notion of constituents of hadrons (namely quarks and gluons) against the dominant view of the time, according to which all hadrons were equally fundamental ('nuclear democracy').

Tian Yu Cao: From Current Algebra to Quantum Chromodynamics: A Case for Structural Realism

Physicists widely believed that at the high temperatures created in the aftermath of the Big Bang, the forces that normally bind quarks and gluons together would have resulted in a substance that behaved similar to a gas.

BIG BANG? ...more like a damp squib! Brum boffin in new theory on origin of universe

Quarks are held together thanks to another kind of particle called gluons. (Gluons help to "glue" the particle together.)

The hottest soup in New York

Their topics include elementary interactions, color quarks and gluons, the grand unification, on the road to El Capitan Beach, in Esalen, the Stanford Linear Accelerator Center, and a strange big bang.

The fundamental constants; a mystery of physics

"In the very early universe about a millionth of a second after the Big Bang, it was so hot and dense that normal matter as we know it melts and you have this soup of quarks and gluons," explains Dr Evans.

Seeking nature of God in Big Bang; The secrets to the beginning of the universe could lie underground in Switzerland. Joanna Geary joined a Birmingham University team of scientists working on the project in Geneva. Simon Hadley took the pictures

He then found that all of the particles, including the neutron and proton, are composed of fundamental building blocks that he named quarks which are permanently confined by forces coming from the exchange of gluons. He and others later constructed the quantum field theory of quarks and gluons called quantum chromodynamics, which seems to account for all the nuclear particles and their strong interactions.

Murray Gell-Mann (1929-present) 2005 Humanist of the Year