Effective Monopole Action at Finite Temperature in SU(2) Gluodynamics

Abstract

Effective monopole action at finite temperature in SU(2) gluodynamics is studied on anisotropic lattices. Using an inverse Monte-Carlo method and the blockspin transformation for space directions, we determine 4-dimensional effective monopole action at finite temperature. We get an almost perfect action in the continuum limit under the assumption that the action is composed of two-point interactions alone. It depends on a physical scale bs and the temperature T. The temperature-dependence appears with respect to the spacelike monopole couplings in the deconfinement phase, whereas the timelike monopole couplings do not show any appreciable temperature-dependence. The dimensional reduction of the 4-dimensional SU(2) gluodynamics ((SU(2))4D) at high temperature is the 3-dimensional Georgi-Glashow model ((GG)3D). The latter is studied at the parameter region obtained from the dimensional red uction. We compare the effective instanton action of (GG)3D with the timelike monopole action obtained from (SU(2))4D. We find that both agree very well for T 2.4Tc at large b region. The dimensional reduction works well also for the effective action.

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