Stability and Large-Time Behavior on 3D Incompressible MHD Equations with Partial Dissipation Near a Background Magnetic Field

IF 2.6 1区数学 Q1 MATHEMATICS, APPLIED

Archive for Rational Mechanics and Analysis Pub Date : 2025-04-10 DOI:10.1007/s00205-025-02100-4

Hongxia Lin, Jiahong Wu, Yi Zhu

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Abstract

Physical experiments and numerical simulations have observed a remarkable stabilizing phenomenon: a background magnetic field stabilizes and dampens electrically conducting fluids. This paper intends to establish this phenomenon as a mathematically rigorous fact on a magnetohydrodynamic (MHD) system with anisotropic dissipation in \(\mathbb R^3\). The velocity equation in this system is the 3D Navier–Stokes equation with dissipation only in the \(x_1\)-direction, while the magnetic field obeys the induction equation with magnetic diffusion in two horizontal directions. We establish that any perturbation near the background magnetic field (0, 1, 0) is globally stable in the Sobolev setting \(H^3({\mathbb {R}}^3)\). In addition, explicit decay rates in \(H^2({\mathbb {R}}^3)\) are also obtained. For when there is no presence of a magnetic field, the 3D anisotropic Navier–Stokes equation is not well understood and the small data global well-posedness in \(\mathbb R^3\) remains an intriguing open problem. This paper reveals the mechanism of how the magnetic field generates enhanced dissipation and helps to stabilize the fluid.

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背景磁场附近部分耗散的三维不可压缩MHD方程的稳定性和大时间行为

物理实验和数值模拟已经观察到一个显著的稳定现象：背景磁场稳定和阻尼导电流体。本文试图在\(\mathbb R^3\)具有各向异性耗散的磁流体动力（MHD）系统上建立这一现象作为一个数学上严格的事实。该系统的速度方程为仅在\(x_1\) -方向上具有耗散的三维Navier-Stokes方程，而磁场则服从两个水平方向上具有磁扩散的感应方程。我们确定在Sobolev设置\(H^3({\mathbb {R}}^3)\)中，背景磁场（0,1,0）附近的任何扰动都是全局稳定的。此外，还得到了\(H^2({\mathbb {R}}^3)\)中的显式衰减率。因为当没有磁场存在时，三维各向异性Navier-Stokes方程不能很好地理解，并且\(\mathbb R^3\)中的小数据全局适定性仍然是一个有趣的开放问题。本文揭示了磁场增强耗散和稳定流体的机理。

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

Archive for Rational Mechanics and Analysis 物理-力学

CiteScore

5.10

自引率

8.00%

发文量

审稿时长

4-8 weeks

期刊介绍： The Archive for Rational Mechanics and Analysis nourishes the discipline of mechanics as a deductive, mathematical science in the classical tradition and promotes analysis, particularly in the context of application. Its purpose is to give rapid and full publication to research of exceptional moment, depth and permanence.