English

Diffusion in a continuum model of self-propelled particles with alignment interaction

Mathematical Physics 2014-04-08 v1 math.MP

Abstract

In this paper, we provide the O(ϵ)O(\epsilon) corrections to the hydrodynamic model derived by Degond and Motsch from a kinetic version of the model by Vicsek & coauthors describing flocking biological agents. The parameter ϵ\epsilon stands for the ratio of the microscopic to the macroscopic scales. The O(ϵ)O(\epsilon) corrected model involves diffusion terms in both the mass and velocity equations as well as terms which are quadratic functions of the first order derivatives of the density and velocity. The derivation method is based on the standard Chapman-Enskog theory, but is significantly more complex than usual due to both the non-isotropy of the fluid and the lack of momentum conservation.

Keywords

Cite

@article{arxiv.1002.2716,
  title  = {Diffusion in a continuum model of self-propelled particles with alignment interaction},
  author = {Pierre Degond and Tong Yang},
  journal= {arXiv preprint arXiv:1002.2716},
  year   = {2014}
}
R2 v1 2026-06-21T14:46:47.282Z