Baryon density dependence of viscosities of the quark-gluon plasma at hadronization

Abstract

The φ meson and baryon provide unique probes of the properties of the quark-gluon plasma (QGP) at hadronization in relativistic heavy-ion collisions. Using the quark recombination model with the quark phase-space information parameterized in a viscous blastwave, we perform Bayesian inference of the shear and bulk viscosities of the QGP at hadronization with a temperature of T 160 MeV by analyzing the φ and data in Au+Au collisions at s NN= 19.6-200 GeV and Pb+Pb collisions at s NN= 2.76 TeV, corresponding to a baryon chemical potential variation from μB≈ 0 (at s NN= 2.76 TeV) to 200 MeV (at s NN= 19.6 GeV). We find that the shear viscosity to enthalpy ratio η T/(ε +P) of the QGP at hadronization decreases as μB increases, with η T/(ε +P)≈ 0.18 at μB=0 and η T/(ε +P)≈ 0.08 at μB=200 MeV, while the corresponding specific bulk viscosity is essentially constant with ζ T/(ε + P)=0.02 0.04 for μB<200 MeV. Our results suggest that the QGP at hadronization (T 160 MeV) with finite baryon density is more close to perfect fluid than that with zero baryon density.

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