Dyadic Models for Fluid Equations: A Survey

IF 1.2 3区 数学 Q2 MATHEMATICS, APPLIED
Alexey Cheskidov, Mimi Dai, Susan Friedlander
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引用次数: 2

Abstract

Over the centuries mathematicians have been challenged by the partial differential equations (PDEs) that describe the motion of fluids in many physical contexts. Important and beautiful results were obtained in the past one hundred years, including the groundbreaking work of Ladyzhenskaya on the Navier–Stokes equations. However crucial questions such as the existence, uniqueness and regularity of the three dimensional Navier–Stokes equations remain open. Partly because of this mathematical challenge and partly motivated by the phenomena of turbulence, insights into the full PDEs have been sought via the study of simpler approximating systems that retain some of the original nonlinear features. One such simpler system is an infinite dimensional coupled set of nonlinear ordinary differential equations referred to a dyadic model. In this survey we provide a brief overview of dyadic models and describe recent results. In particular, we discuss results for certain dyadic models in the context of existence, uniqueness and regularity of solutions.

流体方程的二元模型:综述
几个世纪以来,数学家们一直受到偏微分方程(PDEs)的挑战,偏微分方程描述了许多物理环境下的流体运动。在过去的一百年里,人们获得了重要而美丽的结果,包括Ladyzhenskaya在Navier-Stokes方程上的开创性工作。然而,三维Navier-Stokes方程的存在性、唯一性和规律性等关键问题仍未解决。部分由于这一数学挑战,部分由于湍流现象的动机,人们通过研究保留了一些原始非线性特征的更简单的近似系统来寻求对完整偏微分方程的见解。这样一个更简单的系统是一个无限维非线性常微分方程的耦合集,称为二进模型。在这个调查中,我们提供了一个简短的概述,并描述了最近的结果。特别地,我们讨论了某些并矢模型解的存在性、唯一性和正则性的结果。
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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来源期刊
CiteScore
2.00
自引率
15.40%
发文量
97
审稿时长
>12 weeks
期刊介绍: The Journal of Mathematical Fluid Mechanics (JMFM)is a forum for the publication of high-quality peer-reviewed papers on the mathematical theory of fluid mechanics, with special regards to the Navier-Stokes equations. As an important part of that, the journal encourages papers dealing with mathematical aspects of computational theory, as well as with applications in science and engineering. The journal also publishes in related areas of mathematics that have a direct bearing on the mathematical theory of fluid mechanics. All papers will be characterized by originality and mathematical rigor. For a paper to be accepted, it is not enough that it contains original results. In fact, results should be highly relevant to the mathematical theory of fluid mechanics, and meet a wide readership.
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