Viscosities of Hot Gluon -- A Lattice QCD Study --

Abstract

We present transport coefficients (shear viscosity, η, and bulk viscosity, ζ) for the gluon system obtained by the lattice QCD. This is an indispensable calculation towards the understanding of ``New State of Matter'' observed in RHIC. We study the temperature regions of RHIC (1.4 ≤ T/Tc ≤ 1.8) and much higher ones up to T/Tc 20. In RHIC regions, the ratio of shear viscosity to entropy density, η/s, is around 0.1-0.4, and satisfies the KSS bound. At high temperature, η becomes two or three oder of magnitude larger. Our calculation has two limitations: (i) the use of the quench approximation, i.e., without quark pair creation-annihilation effects on vacuum, and (ii) the use of an ansatz for the spectral function. The first point has been well studied in calculations of the spectroscopy and the phase-transition behavior. To investigate the second point, we compare our results with perturbative calculations in high T-regions, and also check the effects of the modification of the spectral function on the viscosity.

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