On the Dirac structure of confinement
- 1 April 1997
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review D
- Vol. 55 (7) , 3987-3993
- https://doi.org/10.1103/physrevd.55.3987
Abstract
The Dirac structure of confinement is shown to be of a timelike-vector nature in the heavy quark limit of QCD. This stands in contradiction with the phenomenological success of the Dirac scalar confining potential. A resolution is achieved through the demonstration that an effective scalar interaction is dynamically generated by nonperturbative mixing between ordinary and hybrid states. The resolution depends crucially on the collective nature of the gluonic degrees of freedom. This implies that dynamical gluonic effects are vital when attempting to incorporate fine structure in models of the interaction.
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This publication has 29 references indexed in Scilit:
- From current to constituent quarks: A renormalization-group-improved Hamiltonian-based description of hadronsPhysical Review D, 1997
- Confinement: Understanding the relation between the Wilson loop and dual theories of long distance Yang-Mills theoryPhysical Review D, 1996
- Precision charmonium spectroscopy from lattice QCDPhysical Review D, 1995
- Dyson-Schwinger equations and their application to hadronic physicsProgress in Particle and Nuclear Physics, 1994
- When can hadronic loops scuttle the Okubo-Zweig-Iizuka rule?Physical Review D, 1993
- Concavity of the quarkonium potentialPhysical Review D, 1986
- Long-Range Spin-Orbit PotentialPhysical Review Letters, 1986
- Lattice Gauge TheoriesAnnual Review of Nuclear and Particle Science, 1985
- Fine- and hyperfine structure of quarkoniaPhysics Letters B, 1982
- Hyperfine interactions in negative parity baryonsPhysics Letters B, 1977