Abstract
These nine lectures deal at an elementary level with the strong interaction between quarks and its implications for the structure of hadrons. Quarkonium systems are studied as a means for measuring the interquark interaction. This is presumably (part of) the answer a solution to QCD must yield, if it is indeed the correct theory of the strong interactions. Some elements of QCD are reviewed, and metaphors for QCD as a confining theory are introduced. The 1/N expansion is summarized as a way of guessing the consequences of QCD for hadron physics.Lattice gauge theory is developed as a means for going beyond perturbation theory in the solution of QCD. The correspondence between statistical mechanics, quantum mechanics, and field theory is made, and simple spin systems are formulated on the lattice. The lattice analog of local gauge invariance is developed, and analytic methods for solving lattice gauge theory are considered. The strong-coupling expansion indicates the existence of a confining phase, and the renormalization group provides a means for recovering the consequences of continuum field theory. Finally, Monte Carlo simulations of lattice theories give evidence for the phase structure of gauge theories, yield an estimate for the string tension characterizing the interquark force, and provide an approximate description of the quarkonium potential in encouragingly good agreement with that is known from experiment.
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© 1986 Springer-Verlag
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Quigg, C. (1986). Quantum chromodynamics near the confinement limit. In: Engelbrecht, C. (eds) Quarks and Leptons. Lecture Notes in Physics, vol 248. Springer, Berlin, Heidelberg. https://doi.org/10.1007/BFb0107282
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DOI: https://doi.org/10.1007/BFb0107282
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Publisher Name: Springer, Berlin, Heidelberg
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Online ISBN: 978-3-540-39794-6
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