Linearized fluctuating hydrodynamics via random polynomials
Abstract
We argue that an ensemble of backgrounds best understands hydrodynamic dispersion relations in a medium with few degrees of freedom and is therefore subject to strong thermal fluctuations. In the linearized regime, dispersion relations become describeable by polynomials with random coefficients. We give a short review of this theory and perform a numerical study of the distribution of the roots of polynomials whose coefficients are of the order of a Knudsen series but fluctuate in accordance with canonical fluctuations of temperature. We find that, remarkably, the analytic structure of the poles of fluctuating dispersion relations is very different from deterministic ones, particularly regarding the distribution of imaginary parts with respect to real components. We argue that this provides evidence that hydrodynamic behavior persists, and is enhanced, by non-perturbative background fluctuations.
Cite
@article{arxiv.2408.01742,
title = {Linearized fluctuating hydrodynamics via random polynomials},
author = {Farid Taghinavaz and Giorgio Torrieri},
journal= {arXiv preprint arXiv:2408.01742},
year = {2024}
}
Comments
Version accepted for publication, Phys.Rev.D