ADJOINT "QUARK" COLOR FIELDS IN FOUR-DIMENSIONAL LATTICE GAUGE THEORY: VACUUM SCREENING AND PENETRATION
Abstract
The fields generated by ``quarks'' in the adjoint representation of SU(2) color are analyzed in the scaling region of the four-dimensional lattice theory. Evidence of vacuum screening of adjoint quarks is obtained from a comparison of quark-antiquark (Q Q) flux-tubes for quarks in the adjoint (``isospin'' j=1) and fundamental (j=1/2) representations. The component Ej of the color-electric field strength in the direction parallel to the Q Q axis is calculated. Near the quarks the ratio of fields Ej=1 / Ej=1/2 approaches the value 8/3, which is equal to the ratio of SU(2) Casimirs. In between the quarks, the ratio falls well below 8/3 at large R. Ej also falls off rapidly as a function of distance x perpendicular to the Q Q axis. However, the ratio Ej=1 / Ej=1/2 depends very weakly on x. The flux-tubes in the two representations thus appear to have very similar cross-sections. This result could imply that the QCD vacuum is dual to a type I superconductor.
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