TL;DR
Emergent Hadron Mass (EHM) explains the mass spectrum of hadrons through strong dynamics, connecting theoretical frameworks with experimental efforts to understand the strong force within the Standard Model.
Contribution
The paper introduces the modern formulation of EHM using Dyson-Schwinger equations, advancing understanding of hadron masses and strong interaction phenomenology.
Findings
EHM provides a unified explanation for pion and proton masses.
Dyson-Schwinger equations effectively model gluon, ghost, and quark propagators.
Framework advances understanding of strong force and hadron structure.
Abstract
Emergent Hadron Mass (EHM) is a mechanism capable of explaining both the unnaturally small (pion) and large (proton) masses of hadrons and if not the origin of confinement, then intimately connected with it. Even though the modern formulation of EHM has only recently been completed, it is rapidly becoming a fundamental focus for modern and future experimental efforts aimed at understanding the strong force within the Standard Model. Using Dyson-Schwinger equations for the gluon, ghost and quark propagators, I will introduce the main EHM concepts and illustrate how far this framework can take us in understanding strong interaction phenomenology.
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