TL;DR
This paper demonstrates that a refined nonperturbative analysis of the QCD gauge sector predicts a quark-gluon interaction form that aligns quantitatively with the interaction needed to accurately describe various hadron observables using advanced Schwinger-Dyson equation methods.
Contribution
It provides a nonperturbative QCD analysis that connects gauge sector predictions with hadron observable modeling.
Findings
Quantitative agreement between the predicted and required quark-gluon interactions.
Validation of the refined nonperturbative approach for hadron physics.
Support for the use of Schwinger-Dyson equations in hadron studies.
Abstract
We show that the form of the renormalization group invariant quark-gluon interaction predicted by a refined nonperturbative analysis of the QCD gauge sector is in quantitative agreement with the one required for describing a wide range of hadron observables using sophisticated truncation schemes of the Schwinger-Dyson equations relevant in the matter sector.
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