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W2147495890 abstract "A hybrid transport approach for the bulk evolution of viscous QCD matter produced in ultra-relativistic heavy-ion collisions is presented. The expansion of the dense deconfined phase of the reaction is modeled with viscous hydrodynamics while the dilute late hadron gas stage is described microscopically by the Boltzmann equation. The advantages of such a hybrid approach lie in the improved capability of handling large dissipative corrections in the late dilute phase of the reaction, including a realistic treatment of the non-equilibrium hadronic chemistry and kinetic freeze-out. By varying the switching temperature at which the hydrodynamic output is converted to particles for further propagation with the Boltzmann cascade we test the ability of the macroscopic hydrodynamic approach to emulate the microscopic evolution during the hadronic stage and extract the temperature dependence of the effective shear viscosity of the hadron resonance gas produced in the collision. We find that the extracted values depend on the prior hydrodynamic history and hence do not represent fundamental transport properties of the hadron resonance gas. We conclude that viscous fluid dynamics does not provide a faithful description of hadron resonance gas dynamics with predictive power, and that both components of the hybrid approach are needed for a quantitative description of the fireball expansion and its freeze-out." @default.
W2147495890 created "2016-06-24" @default.
W2147495890 creator A5064541734 @default.
W2147495890 creator A5074933533 @default.
W2147495890 creator A5076508178 @default.
W2147495890 date "2011-02-22" @default.
W2147495890 modified "2023-10-17" @default.
W2147495890 title "Viscous QCD matter in a hybrid hydrodynamic+Boltzmann approach" @default.
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W2147495890 doi "https://doi.org/10.1103/physrevc.83.024912" @default.
W2147495890 hasPublicationYear "2011" @default.
W2147495890 type Work @default.
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