Analytical study of a gas of gluonic quasiparticles at high temperature: effective mass, pressure and trace anomaly

TL;DR

This paper analytically examines the thermodynamics of a gluonic quasiparticle gas at high temperatures, deriving behavior of mass, pressure, and trace anomaly, and finds results consistent with lattice simulations.

Contribution

It provides an analytic derivation of the high-temperature behavior of gluonic quasiparticles, including mass, pressure, and trace anomaly, with constraints on the bag function.

Findings

Trace anomaly dominated by quadratic T^2 behavior

Derived high-temperature behavior of gluonic quasiparticles

Results agree with recent lattice simulation data

Abstract

The thermodynamical properties of a pure Yang-Mills theory SU(N) is described by a gas of gluonic quasiparticles with temperature dependent mass $m(T)$ and a bag function $B(T).$ The analytic behavior of $m(T)$ and the pressure $p$ at high $T$ are derived and constraints on the parameters defining $B(T)$ are discussed. The trace anomaly $\theta=\rho-3p$ is evaluated in the high $T$ domain: it is dominated by a quadratic behavior $\theta =nKT^{2},$ where $n=2(N^{2}-1)$ is the number of degrees of freedom and $K$ is an integration constant which does not depend on the bag function $B(T)$. This is a general result which is in very good agreement with recent lattice simulations.