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Main Author: Abramov, Rafail V.
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2603.19190
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author Abramov, Rafail V.
author_facet Abramov, Rafail V.
contents We numerically simulate the two-dimensional inertial flow with the van der Waals effect in a straight periodic channel around the Poiseuille and Couette stationary states. Even though the flow remains laminar macroscopically, we observe complex dynamics and power decay of the Fourier spectra of small fluctuations of the density, velocity divergence, vorticity and kinetic energy of the flow near their respective stationary background states. Remarkably, pinning the vorticity to its background state, and leaving only the density and velocity divergence as the variables, results in the dynamics and power decay of the Fourier spectra qualitatively similar to those of the full system. This strongly indicates that the underlying physics of the power spectra reside primarily in the density and velocity divergence variables, and are not directly related to the vorticity of the flow.
format Preprint
id arxiv_https___arxiv_org_abs_2603_19190
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Power spectra via the van der Waals effect in the two-dimensional Poiseuille and Couette flow
Abramov, Rafail V.
Fluid Dynamics
We numerically simulate the two-dimensional inertial flow with the van der Waals effect in a straight periodic channel around the Poiseuille and Couette stationary states. Even though the flow remains laminar macroscopically, we observe complex dynamics and power decay of the Fourier spectra of small fluctuations of the density, velocity divergence, vorticity and kinetic energy of the flow near their respective stationary background states. Remarkably, pinning the vorticity to its background state, and leaving only the density and velocity divergence as the variables, results in the dynamics and power decay of the Fourier spectra qualitatively similar to those of the full system. This strongly indicates that the underlying physics of the power spectra reside primarily in the density and velocity divergence variables, and are not directly related to the vorticity of the flow.
title Power spectra via the van der Waals effect in the two-dimensional Poiseuille and Couette flow
topic Fluid Dynamics
url https://arxiv.org/abs/2603.19190