Relativistic Dissipative Fluid Dynamics from Non-Equilibrium Statistical Operator
Nuclear Theory
2018-07-18 v2 High Energy Physics - Phenomenology
Abstract
We present a new derivation of second-order relativistic dissipative fluid dynamics for quantum systems using Zubarev's formalism for the non-equilibrium statistical operator. In particular, we discuss the shear-stress tensor to second order in gradients and argue that the relaxation terms for the dissipative quantities arise from memory effects contained in the statistical operator. We also identify new transport coefficients which describe the relaxation of dissipative processes to second order and express them in terms of equilibrium correlation functions, thus establishing Kubo-type formulae for the second-order transport coefficients.
Keywords
Cite
@article{arxiv.1804.08267,
title = {Relativistic Dissipative Fluid Dynamics from Non-Equilibrium Statistical Operator},
author = {Arus Harutyunyan and Armen Sedrakian and Dirk H. Rischke},
journal= {arXiv preprint arXiv:1804.08267},
year = {2018}
}
Comments
v2: 11 pages, no figures, references added, matches published version. v1: 10 pages