具有水平磁扩散的二维不可压缩MHD方程的全局适定性和衰减性

IF 0.5 4区 数学 Q3 MATHEMATICS Journal of Mathematical Physics Analysis Geometry Pub Date : 2023-07-01 DOI:10.1063/5.0155296
Hongxia Lin, Heng Zhang, Sen Liu, Qing Sun
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引用次数: 0

摘要

本文研究了二维不可压缩磁流体动力学方程,速度方程的垂直分量只考虑阻尼,磁方程的水平分量只考虑扩散。如果不考虑磁场,则系统简化为带有额外Riesz变换项的类欧拉方程。类欧拉方程的全局适定性在整个平面R2上仍然是一个开放问题。当与磁场耦合时,R2中MHD系统的全局适定性和稳定性也有待解决。本文主要研究空间域T×R,其中T为一维周期盒。建立了二维各向异性MHD系统的全局适定性。此外,还得到了在h2环境下的代数衰减率。我们通过将物理量分解为水平平均值及其相应的振荡部分,建立强poincar型不等式和一些各向异性不等式,并结合对初始数据施加的对称条件来解决这个问题。
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Global well-posedness and decay of the 2D incompressible MHD equations with horizontal magnetic diffusion
This paper concerns two-dimensional incompressible magnetohydrodynamic (MHD) equations with damping only in the vertical component of velocity equations and horizontal diffusion in magnetic equations. If the magnetic field is not taken into consideration the system is reduced to Euler-like equations with an extra Riesz transform-type term. The global well-posedness of Euler-like equations remains an open problem in the whole plane R2. When coupled with the magnetic field, the global well-posedness and the stability for the MHD system in R2 have yet to be settled too. This paper here focuses on the space domain T×R, with T being a 1D periodic box. We establish the global well-posedness of the 2D anisotropic MHD system. In addition, the algebraic decay rate in the H2-setting has also been obtained. We solve this by decomposing the physical quantity into the horizontal average and its corresponding oscillation portion, establishing strong Poincaré-type inequalities and some anisotropic inequalities and combining the symmetry conditions imposed on the initial data.
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来源期刊
CiteScore
0.70
自引率
20.00%
发文量
18
审稿时长
>12 weeks
期刊介绍: Journal of Mathematical Physics, Analysis, Geometry (JMPAG) publishes original papers and reviews on the main subjects: mathematical problems of modern physics; complex analysis and its applications; asymptotic problems of differential equations; spectral theory including inverse problems and their applications; geometry in large and differential geometry; functional analysis, theory of representations, and operator algebras including ergodic theory. The Journal aims at a broad readership of actively involved in scientific research and/or teaching at all levels scientists.
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