The Hagedorn-type structure of the non-perturbative gluon pressure within the mass gap approach to QCD

Abstract

We have shown in detail that the low-temperature expansion for the non-perturbative gluon pressure has the Hagedorn-type structure. Its exponential spectrum of all the effective gluonic excitations are expressed in terms of the mass gap. It is this which is responsible for the large-scale dynamical structure of the QCD ground state. The non-perturbative gluon pressure properly scaled has a maximum at some characteristic temperature T=Tc = 266.5 \ , separating the low- and high temperature regions. It is exponentially suppressed in the T → 0 limit. In the T → Tc limit it demonstrates an exponential rise in the number of dynamical degrees of freedom. Its exponential increase behavior with temperature is valid only up to Tc. This makes it possible to identify Tc with the Hagedorn-type transition temperature Th, i.e., to put Th=Tc within the mass gap approach to QCD at finite temperature. The non-perturbative gluon pressure has a complicated dependence on the mass gap and temperature near Tc and up to approximately (4-5)Tc. In the limit of very high temperatures T → ∞ its polynomial character is confirmed, containing the terms proportional to T2 and T, multiplied by the corresponding powers of the mass gap. abstract