Difference between revisions of "Hadronization"
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| − | '''Hadronization''' or '''hadron formation''' is the process by which [[Parton|partons]] ([[Quark|quarks]] and [[Gluon|gluons]]), which have [[Color charge|color charge]], form [[Bound state|bound states]] called [[Hadron|hadrons]], which are colorless. Hadronization | + | '''Hadronization''' or '''hadron formation''' is the process by which [[Parton|partons]] ([[Quark|quarks]] and [[Gluon|gluons]]), which have [[Color charge|color charge]], form [[Bound state|bound states]] called [[Hadron|hadrons]], which are colorless. Hadronization occurs at an energy scale <math>\Lambda_{QCD} \sim 500</math> MeV, at which point the [[strong interaction]] is [[Strong coupling|too strong]] to make calculations using [[Perturbation theory|perturbation theory]]. It can therefore not be [[Ab-initio calculation|calculated from first principles]], but has to be described by a [[phenomenological model]]. Examples of [[Hadronization model|hadronization models]] are the early [[Field-Feynman model]] and the more modern [[Lund string model]] as well as the [[cluster model]]. |
Latest revision as of 14:12, 1 August 2017
Hadronization or hadron formation is the process by which partons (quarks and gluons), which have color charge, form bound states called hadrons, which are colorless. Hadronization occurs at an energy scale 
MeV, at which point the strong interaction is too strong to make calculations using perturbation theory. It can therefore not be calculated from first principles, but has to be described by a phenomenological model. Examples of hadronization models are the early Field-Feynman model and the more modern Lund string model as well as the cluster model.
