从矩量法的液晶动力学模型到流体模型

IF 1 4区数学 Q1 MATHEMATICS

Kinetic and Related Models Pub Date : 2021-06-30 DOI:10.3934/krm.2021047

P. Degond, A. Frouvelle, Jian‐Guo Liu

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引用次数: 2

摘要

本文讨论了在底波拉数趋于零的极限下，液晶的Doi-Navier-Stokes模型向Ericksen-Leslie模型的收敛性。虽然文献已经通过Hilbert展开法研究了这个问题，但我们发展了矩法，即利用碰撞算子遵循的守恒关系的方法。这些非经典守恒关系与一个新概念，即广义碰撞不变量(GCI)相关联。在本文中，我们发展了GCI概念，并将其与碰撞算子的几何结构和解析结构联系起来。然后，在任意数量的空间维度和非恒定和非均匀聚合物密度下，使用GCI推导了极限模型。这种不一致性在Ericksen-Leslie模型中产生了新的术语。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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From kinetic to fluid models of liquid crystals by the moment method

This paper deals with the convergence of the Doi-Navier-Stokes model of liquid crystals to the Ericksen-Leslie model in the limit of the Deborah number tending to zero. While the literature has investigated this problem by means of the Hilbert expansion method, we develop the moment method, i.e. a method that exploits conservation relations obeyed by the collision operator. These are non-classical conservation relations which are associated with a new concept, that of Generalized Collision Invariant (GCI). In this paper, we develop the GCI concept and relate it to geometrical and analytical structures of the collision operator. Then, the derivation of the limit model using the GCI is performed in an arbitrary number of spatial dimensions and with non-constant and non-uniform polymer density. This non-uniformity generates new terms in the Ericksen-Leslie model.

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来源期刊

Kinetic and Related Models 数学-数学

CiteScore

2.10

自引率

10.00%

发文量

审稿时长

>12 weeks

期刊介绍： KRM publishes high quality papers of original research in the areas of kinetic equations spanning from mathematical theory to numerical analysis, simulations and modelling. It includes studies on models arising from physics, engineering, finance, biology, human and social sciences, together with their related fields such as fluid models, interacting particle systems and quantum systems. A more detailed indication of its scope is given by the subject interests of the members of the Board of Editors. Invited expository articles are also published from time to time.