Abstract
In this talk I discuss aspects of hadron physics, which soon are expected to shed new light on the fundamental QCD phenomena. In the analysis of hadron reactions and their propertieds I emphasize similarities to the nuclear many body problem.
Highlights
The vast majority of nuclear phenomena can be understood using protons and neutrons as elementary constituents and the nonrelativistic interactions among them
It is fascinating that the behavior and properties of the ”elementary” hadrons, i.e. isolated bound states of quarks and gluons share many similarities with both, the low-energy nuclear phenomena as well as the high-energy Quantum Chromodynamics (QCD) behavior
The same gluons that provide binding between quarks and produce the nucleon mass can be active in the hadron spectrum
Summary
The vast majority of nuclear phenomena can be understood using protons and neutrons as elementary constituents and the nonrelativistic interactions among them. In this talk I discuss aspects of hadron physics, which soon are expected to shed new light on the fundamental QCD phenomena. Quantum Chromodynamics (QCD), which is the underlying theory of nuclear forces, describes the relativistic quarks and gluons as the fundamental degrees of freedom.
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