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An Exact, Finite, Gauge-Invariant, Non-Perturbative Model of QCD Renormalization

A particular choice of renormalization, within the simplifications provided by the non-perturbative property of Effective Locality, leads to a completely finite, renormalized theory of QCD, in which all correlation functions can, in principle, be defined and calculated. In this Model of renormalization, only the Bundle chain-Graphs of the cluster expansion are non-zero. All Bundle graphs connecting to closed quark loops of whatever complexity, and attached to a single quark line, provided no 'self-energy' to that quark line, and hence no effective renormalization. However, the exchange of momentum between one quark line and another, involves only the cluster-expansion's chain graphs, and yields a set of contributions which can be summed and provide a finite color-charge renormalization that can be incorporated into all other QCD processes. An application to high energy elastic pp scattering is now underway.

preprint2015arXivOpen access
H. M. FriedP. H. TsangY. GabelliniT. GrandouY. -M. Sheu
hep-th
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H. M. FriedP. H. TsangY. GabelliniT. GrandouY. -M. Sheu

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