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Effective models of a semi-quark gluon plasma

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arxiv 2009.03903 v1 pith:7FLM6XKG submitted 2020-09-08 hep-ph hep-thnucl-th

Effective models of a semi-quark gluon plasma

classification hep-ph hep-thnucl-th
keywords holonomyenergyfreebernoullicomputingdimensionalgaugeghosts
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In the deconfined regime of a non-Abelian gauge theory at nonzero temperature, previously it was argued that if a (gauge invariant) source is added to generate nonzero holonomy, that this source must be linear for small holonomy. The simplest example of this is the second Bernoulli polynomial. However, then there is a conundrum in computing the free energy to $\sim g^3$ in the coupling constant $g$, as part of the free energy is discontinuous as the holonomy vanishes. In this paper we investigate two ways of generating the second Bernoulli polynomial dynamically: as a mass derivative of an auxiliary field, and from two dimensional ghosts embedded isotropically in four dimensions. Computing the holonomous hard thermal loop (HHTL) in the gluon self-energy, we find that the limit of small holonomy is only well behaved for two dimensional ghosts, with a free energy which to $\sim g^3$ is continuous as the holonomy vanishes.

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