Gauge theories at finite temperature and chemical potential
- 15 January 1987
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review D
- Vol. 35 (2) , 748-752
- https://doi.org/10.1103/physrevd.35.748
Abstract
The relativistic partition function is studied respecting the internal symmetries. We consider generally the SU(N) gauge theories, and, in particular, the SU(3) symmetry relating to the quark-gluon plasma. The implications of the complex chemical potentials are analyzed and discussed in relation to the lattice gauge theories. It is explicitly shown that the physical partition function is real, which can be obtained from a complex Euclidean partition function by imposing Gauss’s law.Keywords
This publication has 24 references indexed in Scilit:
- Chemical potentials in gauge theoriesPhysics Letters B, 1985
- Grand partition function for an ideal gas in a constant external potential and gauge transformations at finite temperaturePhysics Letters B, 1984
- Explicit calculation of partition functions for a constant vacuum gauge potentialPhysical Review D, 1983
- Wilson line in finite-temperature gauge theoriesPhysical Review D, 1982
- Finite-temperature symmetry breaking as Bose-Einstein condensationPhysical Review D, 1982
- Covariant structure of relativistic gases in equilibriumPhysical Review D, 1981
- Bose-Einstein condensation, spontaneous symmetry breaking, and gauge theoriesPhysical Review D, 1981
- Effective potential for the order parameter of gauge theories at finite temperaturePhysical Review D, 1981
- QCD and instantons at finite temperatureReviews of Modern Physics, 1981
- Phase transitions in the statistical bootstrap model with an internal symmetryThe European Physical Journal C, 1980