Home
For authors
Submission status

Current
Archive (English)
Archive
   Volumes 61-80
   Volumes 41-60
   Volumes 21-40
   Volumes 1-20
   Volumes 81-92
      Volume 92
      Volume 91
      Volume 90
      Volume 89
      Volume 88
      Volume 87
      Volume 86
      Volume 85
      Volume 84
      Volume 83
      Volume 82
      Volume 81
Search
VOLUME 85 (2007) | ISSUE 12 | PAGE 730
Deconfinement transition for nonzero baryon density in the field correlator method
PACS: 12.38.Lg, 25.75.Nq
Abstract
Deconfinement phase transition due to disappearance of confining colorelectric field correlators is described using nonperturbative equation of state. The resulting transition temperature Tc(μ) at any chemical potential μ is expressed in terms of the change of gluonic condensate Δ G2 and absolute value of Polyakov loop L fund (Tc), known from lattice and analytic data, and is in good agreement with lattice data for \Delta G_2 \approx 0.0035 GeV4. E.g. Tc(0) =0.27; 0.19; 0.17 GeV for nf=0,2,3 respectively.