活性粒子悬浮液中的不稳定性与模式形成：动力学理论与连续介质模拟。

Instabilities and pattern formation in active particle suspensions: kinetic theory and continuum simulations.

作者信息

Saintillan David, Shelley Michael J

机构信息

Courant Institute of Mathematical Sciences, New York University, New York, New York 10012, USA.

出版信息

Phys Rev Lett. 2008 May 2;100(17):178103. doi: 10.1103/PhysRevLett.100.178103. Epub 2008 Apr 29.

DOI:10.1103/PhysRevLett.100.178103

PMID:18518342

Abstract

We use kinetic theory and nonlinear continuum simulations to study the collective dynamics in suspensions of self-propelled particles. The stability of aligned suspensions is first analyzed, and we demonstrate that such suspensions are always unstable to fluctuations, a result that generalizes previous predictions by Simha and Ramaswamy. Isotropic suspensions are also considered, and it is shown that an instability for the particle stress occurs in that case. Using simulations, nonlinear effects are investigated, and the long-time behavior of the suspensions is observed to be characterized by the formation of strong density fluctuations, resulting in efficient fluid mixing.

摘要

我们运用动力学理论和非线性连续介质模拟来研究自驱动粒子悬浮液中的集体动力学。首先分析了排列悬浮液的稳定性，我们证明了这种悬浮液对于涨落总是不稳定的，这一结果推广了西姆哈和拉马斯瓦米之前的预测。还考虑了各向同性悬浮液，结果表明在这种情况下粒子应力会出现不稳定性。通过模拟研究了非线性效应，观察到悬浮液的长时间行为表现为形成强烈的密度涨落，从而导致有效的流体混合。

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活性粒子悬浮液中的不稳定性与模式形成：动力学理论与连续介质模拟。

Instabilities and pattern formation in active particle suspensions: kinetic theory and continuum simulations.

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