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Free energy of a Holonomous Plasma

Published 3 Feb 2020 in hep-ph, hep-lat, and nucl-th | (2002.00968v1)

Abstract: At a nonzero temperature T, a constant field $\overline{A}_0 \sim T/g$ generates nontrivial eigenvalues of the thermal Wilson line. We discuss contributions to the free energy of such a holonomous plasma when the coupling constant, $g$, is weak. We review the computation to $\sim g2$ by several alternate methods, and show that gauge invariant sources, which are nonlinear in the gauge potential $A_0$, generate novel contributions to the gluon self energy at $\sim g2$. These ensure the gluon self energy remains transverse to $\sim g2$, and are essential in computing contributions to the free energy at $\sim g3$ for small holonomy, $\overline{A}_0 \sim T$. We show that the contribution $\sim g3$ from off-diagonal gluons is discontinuous as the holonomy vanishes. The contribution from diagonal gluons is continuous as the holonomy vanishes, but sharply constrains the possible sources which generate nonzero holonomy, and must involve an infinite number of Polyakov loops.

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