QCD Shear Viscosity at (almost) NLO
Abstract
We compute the shear viscosity of QCD with matter, including almost all next-to-leading order corrections -- that is, corrections suppressed by one power of relative to leading order. We argue that the still missing terms are small. The next-to-leading order corrections are large and bring down by more than a factor of 3 at physically relevant couplings. The perturbative expansion is problematic even at GeV. The largest next-to-leading order correction to arises from modifications to the qhat parameter, which determines the rate of transverse momentum diffusion. We also explore quark number diffusion, and shear viscosity in pure-glue QCD and in QED.
Cite
@article{arxiv.1802.09535,
title = {QCD Shear Viscosity at (almost) NLO},
author = {Jacopo Ghiglieri and Guy D. Moore and Derek Teaney},
journal= {arXiv preprint arXiv:1802.09535},
year = {2018}
}
Comments
36 pages plus appendices, 11 figures. The main results are summarized in the introduction (Fig. 1)