---
res:
bibo_abstract:
- We begin with the discussion of the relationship between the trace of the energy
momentum tensor and the gluon condensate at finite temperatures. Using the recent
numerical data from the simulations of lattice gauge theory for quantum chromodynamics
(QCD) we present the computational evaluations for the gluon condensate. A short
discussion of the properties of deconfinement and the implications on the high
temperature limit are included. We also mention the case of the massive quarks
where some of the properties of the condensate appear to change. We put together
these results with some ideas related to the dilatation current. We draw the conclusion
that the nature of the strong interactions implies that the thermodynamics of
quarks and gluons never approach even at very high temperatures that of an ideal
ultrarelativistic gas.@eng
bibo_authorlist:
- autoren_ansetzung:
- Miller, David
- Miller
- David Miller
- Miller, D
- Miller, D.
- D Miller
- D. Miller
foaf_Person:
foaf_givenName: David
foaf_name: Miller, David
foaf_surname: Miller
foaf_workInfoHomepage: http://www.librecat.org/personId=63473
bibo_issue: '12'
bibo_volume: '28'
dct_date: 1997^xs_gYear
dct_identifier:
- UT:000072416400019
dct_isPartOf:
- http://id.crossref.org/issn/0587-4254
dct_language: eng
dct_publisher: ACTA PHYSICA POLONICA B, JAGELLONIAN UNIV, INST PHYSICS@
dct_title: The gluon condensate in QCD at finite temperature@
...