Strong Coupling Series for QCD at Finite Temperature and Density

Langelage J, Philipsen O (2010)
In: Progress of Theoretical Physics Supplement. Institute of Pure and Applied Physics (IPAP): 567-571.

Conference Paper | Published | English

No fulltext has been uploaded

Author
;
Abstract
We discuss the use of strong coupling expansions for Yang-Mills theory and QCD at finite temperature and density. In particular we consider the onset of temperature effects for the free energy and screening masses, derive the hadron resonance gas model from first principles and compute the weakening of the deconfinement transition with chemical potential.
Publishing Year
ISSN
PUB-ID

Cite this

Langelage J, Philipsen O. Strong Coupling Series for QCD at Finite Temperature and Density. In: Progress of Theoretical Physics Supplement. Institute of Pure and Applied Physics (IPAP); 2010: 567-571.
Langelage, J., & Philipsen, O. (2010). Strong Coupling Series for QCD at Finite Temperature and Density. Progress of Theoretical Physics Supplement(186), 567-571.
Langelage, J., and Philipsen, O. (2010). “Strong Coupling Series for QCD at Finite Temperature and Density” in Progress of Theoretical Physics Supplement (Institute of Pure and Applied Physics (IPAP), 567-571.
Langelage, J., & Philipsen, O., 2010. Strong Coupling Series for QCD at Finite Temperature and Density. In Progress of Theoretical Physics Supplement. Institute of Pure and Applied Physics (IPAP), pp. 567-571.
J. Langelage and O. Philipsen, “Strong Coupling Series for QCD at Finite Temperature and Density”, Progress of Theoretical Physics Supplement, Institute of Pure and Applied Physics (IPAP), 2010, pp.567-571.
Langelage, J., Philipsen, O.: Strong Coupling Series for QCD at Finite Temperature and Density. Progress of Theoretical Physics Supplement. p. 567-571. Institute of Pure and Applied Physics (IPAP) (2010).
Langelage, Jens, and Philipsen, Owe. “Strong Coupling Series for QCD at Finite Temperature and Density”. Progress of Theoretical Physics Supplement. Institute of Pure and Applied Physics (IPAP), 2010. 567-571.
This data publication is cited in the following publications:
This publication cites the following data publications:

Export

0 Marked Publications

Open Data PUB

Web of Science

View record in Web of Science®

Sources

arXiv 1007.4639

Search this title in

Google Scholar