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A Mechanism for Quark Confinement

  • David J. Gross
Part of the Studies in the Natural Sciences book series (SNS, volume 12)

Abstract

I shall describe in this lecture a new approach to the dynamics of quarks. It is widely believed that the strong interactions are described by QCD, a nonabelian (SU(3)) gauge theory of colored quarks and gluons, permanently confined in color singlet hadronic bound states. Our knowledge of the nature of the constituents of hadrons derives from their observed symmetries, the success of various phenomenological models such as the quark model and most important from the observed short distance behavior of hadronic currents. It is this free-field theory behavior at large momentum (asymptotic freedom) that singles out nonabelian gauge interactions as the source of the strong interactions, allows us to directly observe the quantum numbers of the quarks and to derive quantative predictions that can test the validity of the theory.

Keywords

Interaction Energy Topological Charge Effective Coupling Asymptotic Freedom Fractional Charge 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

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    This model has been analysed in detail by us. In addition to exhibiting the restoration of gauge symmetry it provides an example of dynamical chiral SU(2) symmetry breaking generated by instantons. C. Callan, R. Dashen and D. Gross, to be published.Google Scholar
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Copyright information

© Springer Science+Business Media New York 1977

Authors and Affiliations

  • David J. Gross
    • 1
  1. 1.Joseph Henry LaboratoriesPrincetonUSA

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