D. Blaschke, M. K. Volkov, V. L. Yudichev
Published 2003-01-10, updated 2003-03-03Version 2
The phase diagram for quark matter is investigated within a simple Nambu-Jona-Lasinio model without vector correlations. It is found that the phase structure in the temperature-density plane depends sensitively on the parametrization of the model. We present two schemes of parametrization of the model where within the first one a first order phase transition from a phase with broken chiral symmetry to a color superconducting phase for temperatures below the triple point at T_t= 55 MeV occurs whereas for the second one a second order phase transition for temperatures below T_t = 7 MeV is found. In the latter case, there is also a coexistence phase of broken chiral symmetry with color superconductivity, which is a new finding within this class of models. Possible consequences for the phenomenology of the QCD phase transition at high baryon densities are discussed.
Comments: LaTeX, 23 pages, 7 figures, new references and discussion added, typos corrected
Journal: Eur.Phys.J. A17 (2003) 103-110
Thermodynamics of the 3-flavor NJL model : chiral symmetry breaking and color superconductivity
Chiral Symmetry Breaking and Color Superconductivity in the Instanton Picture
Influence of QED Corrections on the Orientation of Chiral Symmetry Breaking in the NJL model
