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- In [[particle physics]], '''quantum chromodynamics''' (abbreviated as '''QCD''') is a specific kind of [[quantum field theory]1 KB (209 words) - 16:58, 5 March 2012
- 159 bytes (26 words) - 10:35, 12 April 2011
- 923 bytes (148 words) - 11:41, 14 September 2011
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- Any one of eight messenger particles for the [[Quantum chromodynamics|strong force]] or color force holding [[quark]]s together in the [[hadron]]183 bytes (26 words) - 12:49, 14 September 2011
- {{r|Quantum chromodynamics}}278 bytes (34 words) - 13:54, 6 July 2012
- {{r|Quantum chromodynamics}}1 KB (173 words) - 15:31, 15 October 2011
- In [[particle physics]], '''quantum chromodynamics''' (abbreviated as '''QCD''') is a specific kind of [[quantum field theory]1 KB (209 words) - 16:58, 5 March 2012
- {{r|Quantum chromodynamics}}748 bytes (116 words) - 11:51, 14 September 2011
- {{r|Quantum chromodynamics}}810 bytes (123 words) - 10:36, 12 April 2011
- ...on of this idea is the [[Higgs boson]], which lowers the symmetry of the [[Quantum chromodynamics|QCD vacuum]] to produce the observed sub-atomic particles of the [[Standard3 KB (418 words) - 04:17, 19 September 2013
- ...e description of real vacuum. Other theoretical models are considered in [[quantum chromodynamics]] and in [[quantum gravity]].5 KB (754 words) - 15:12, 4 August 2011
- ...entary particle that is not subject to the strong force (also called the [[Quantum chromodynamics|chromodynamic force]] or ''color force''). In other words, leptons are ''co4 KB (603 words) - 21:01, 19 November 2020
- ...m (quantum electrodynamic)|vacuum of quantum electrodynamics]] or of the [[Quantum chromodynamics|vacuum of chromodynamics]], known as the [[vacuum energy]], an amount of en16 KB (2,522 words) - 14:33, 14 May 2023
- ...that explains experimental observations of [[elementary particle]]s, the [[Quantum chromodynamics|QCD vacuum]] has less symmetry than the force laws governing fundamental in8 KB (1,119 words) - 14:16, 18 September 2020
- ...There are competing theoretical models for vacuum, however, for example [[quantum chromodynamics|quantum chromodynamic vacuum]] and the vacuum of [[quantum gravity]].<ref n19 KB (2,820 words) - 09:33, 18 February 2012
- ..., antiquarks, and [[gluon]]s. Their strong interactions are described by [[quantum chromodynamics]].<ref name=Susskind/> The [[meson]] is a [[quark]] and an antiquark paired6 KB (907 words) - 07:58, 28 May 2022
- ...eveloped. The quantum field theory of the strong nuclear force is called [[quantum chromodynamics]], and describes the interactions of the subnuclear particles: [[quark]]s a The theory of [[quantum chromodynamics]] was formulated beginning in the early 1960s. The theory as we know it tod37 KB (5,578 words) - 04:54, 21 March 2024
- ...boson]]s and [[Z boson]] for the [[weak force]], [[gluon]] exchange for [[Quantum chromodynamics|chromodynamic forces]], the hypothetical graviton for [[Gravitation|gravity21 KB (3,138 words) - 05:36, 6 March 2024
- Do unobservable theoretical entities such as [[Quantum chromodynamics|quarks and gluons]] really exist in the physical world, as objective entiti <font face="Gill Sans MT">QCD <nowiki>[</nowiki>[[Quantum chromodynamics]]<nowiki>]</nowiki> also has a property called asymptotic freedom, which we44 KB (6,711 words) - 20:01, 11 October 2013