Yu Jiang, Hua Li, Shi-song Huang, Wei-min Sun, Hong-shi Zong
Published 2010-07-10Version 1
Based on the method proposed in [ H. S. Zong, W. M. Sun, Phys. Rev. \textbf{D 78}, 054001 (2008)], we calculate the equation of state (EOS) of QCD at zero temperature and finite quark chemical potential under the hard-dense-loop (HDL) approximation. A comparison between the EOS under HDL approximation and the cold, perturbative EOS of QCD proposed by Fraga, Pisarski and Schaffner-Bielich is made. It is found that the pressure under HDL approximation is generally smaller than the perturbative result. In addition, we also calculate the quark number susceptibility (QNS) at finite temperature and finite chemical potential under hard-thermal/dense-loop (HTL/HDL) approximation and compare our results with the corresponding ones in the previous literature.
Comments: 12 pages, 3 figures
The Quark Number Susceptibility in Hard-Thermal-Loop Approximation
Quark Number Susceptibility, Thermodynamic Sum Rule, and Hard Thermal Loop Approximation
Quark Number Susceptibility and QCD Phase Transition in the Predictive Soft-wall AdS/QCD Model with Finite Temperature
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