Symmetries in subatomic multi-quark systems

J.D. Vergados (Physics Department; University of Ioannina; Ioannina,; Greece); D. Strottman (LANL; Los Alamos; NM; USA)

arXiv:1809.00799·hep-ph·May 1, 2019

Symmetries in subatomic multi-quark systems

J.D. Vergados (Physics Department, University of Ioannina, Ioannina,, Greece), D. Strottman (LANL, Los Alamos, NM, USA)

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TL;DR

This paper explores how quantum chromodynamics (QCD) influences low-energy multi-quark systems by analyzing their symmetries, including color-spin, orbital, and isospin, to construct proper wave functions.

Contribution

It combines QCD with orbital and isospin symmetries to develop accurate wave functions for multi-quark systems, emphasizing permutation symmetry.

Findings

01

QCD impacts low-energy multi-quark phenomena

02

Wave functions incorporate combined symmetries

03

Proper permutation symmetry achieved in multi-quark models

Abstract

We discus the role of QCD (Quantum Chromodynamics) to low energy phenomena involving the color-spin symmetry of the quark model. We then combine it with orbital and isospin symmetry to obtain wave functions with the proper permutation symmetry, focusing on multi quark systems.

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