Matrix Models and QCD with Chemical Potential

Akemann G (2007)
Int.J.Mod.Phys.A 22(06): 1077-1122.

Journal Article | Published | English

No fulltext has been uploaded

Abstract
The Random Matrix Model approach to Quantum Chromodynamics (QCD) withnon-vanishing chemical potential is reviewed. The general concept using globalsymmetries is introduced, as well as its relation to field theory, theso-called epsilon regime of chiral Perturbation Theory (echPT). Two types ofMatrix Model results are distinguished: phenomenological applications leadingto phase diagrams, and an exact limit of the QCD Dirac operator spectrummatching with echPT. All known analytic results for the spectrum of complex andsymplectic Matrix Models with chemical potential are summarised for thesymmetry classes of ordinary and adjoint QCD, respectively. These includecorrelation functions of Dirac operator eigenvalues in the complex plane forreal chemical potential, and in the real plane for imaginary isospin chemicalpotential. Comparisons of these predictions to recent Lattice simulations arealso discussed.
Publishing Year
ISSN
eISSN
PUB-ID

Cite this

Akemann G. Matrix Models and QCD with Chemical Potential. Int.J.Mod.Phys.A. 2007;22(06):1077-1122.
Akemann, G. (2007). Matrix Models and QCD with Chemical Potential. Int.J.Mod.Phys.A, 22(06), 1077-1122.
Akemann, G. (2007). Matrix Models and QCD with Chemical Potential. Int.J.Mod.Phys.A 22, 1077-1122.
Akemann, G., 2007. Matrix Models and QCD with Chemical Potential. Int.J.Mod.Phys.A, 22(06), p 1077-1122.
G. Akemann, “Matrix Models and QCD with Chemical Potential”, Int.J.Mod.Phys.A, vol. 22, 2007, pp. 1077-1122.
Akemann, G.: Matrix Models and QCD with Chemical Potential. Int.J.Mod.Phys.A. 22, 1077-1122 (2007).
Akemann, Gernot. “Matrix Models and QCD with Chemical Potential”. Int.J.Mod.Phys.A 22.06 (2007): 1077-1122.
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 hep-th/0701175

Search this title in

Google Scholar