• Title of article

    Entropy production for an interacting quark–gluon plasma

  • Author/Authors

    Stefano Mattiello، نويسنده ,

  • Issue Information
    دوهفته نامه با شماره پیاپی سال 2012
  • Pages
    19
  • From page
    1
  • To page
    19
  • Abstract
    We investigate the entropy production within dissipative hydrodynamics in the Israel–Stewart (IS) and Navier–Stokes theory (NS) for relativistic heavy ion physics applications. In particular we focus on the initial condition in a image Bjorken scenario, appropriate for the early longitudinal expansion stage of the collision. Going beyond the standard simplification of a massless ideal gas we consider a realistic equation of state consistently derived within a virial expansion. The EoS used is well in line with recent three-flavor QCD lattice data for the pressure, speed of sound, and interaction measure at nonzero temperature and vanishing chemical potential (image). The shear viscosity has been consistently calculated within this formalism using a kinetic approach in the ultra-relativistic regime with an explicit and systematic evaluation of the transport cross section as function of temperature. We investigate the influence of the viscosity and the initial condition, i.e. formation time, initial temperature, and pressure anisotropy for the entropy production at RHIC at image. We find that the interplay between effects of the viscosity and of the realistic EoS cannot be neglected in the reconstruction of the initial state from experimental data. Therefore, from the experimental findings it is very hard to derive unambiguous information about the initial conditions and/or the evolution of the system.
  • Keywords
    Hydrodynamical model , Quark–gluon plasma , Shear viscosity , relativistic heavy ion collision
  • Journal title
    Nuclear physics A
  • Serial Year
    2012
  • Journal title
    Nuclear physics A
  • Record number

    1204078