三维全可压缩多流体力学方程初始边界值问题的全局好求和强解渐近行为

IF 1.2 3区数学 Q2 MATHEMATICS, APPLIED

Journal of Mathematical Fluid Mechanics Pub Date : 2024-12-17 DOI:10.1007/s00021-024-00915-x

Hao Xu, Hong Ye, Jianwen Zhang

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引用次数: 0

摘要

研究了三维有界域上完全可压缩磁流体动力学方程的初边值问题，其中速度条件为无滑移边界条件，磁场条件为完全传导边界条件，温度条件为齐次Dirichlet边界条件。建立了具有初始真空的强解的全局适定性，并在初始总能量适当小的条件下，得到了解的指数衰减估计。更有趣的是，对于\(p\in (3,6)\)，对于所有\(t\ge 0\)，密度梯度的\(L^p\)范数保持一致有界。这与（Chen et al.）在大振荡和真空的三维有界域中的全可压缩磁流体动力系统的全局适定性形成鲜明对比。[4]李建军，李建军，李建军等。三维有界区域上具有大振动和真空的完全可压缩Navier-Stokes方程经典解的整体存在性。arXiv:2207.00441)，其中探讨了\(L^p\) -范数中密度梯度的指数增长。

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Global Well-Posedness and Asymptotic Behavior of Strong Solutions to an Initial-Boundary Value Problem of 3D Full Compressible MHD Equations

This paper is concerned with an initial-boundary value problem of full compressible magnetohydrodynamics (MHD) equations on 3D bounded domains subject to non-slip boundary condition for velocity, perfectly conducting boundary condition for magnetic field, and homogeneous Dirichlet boundary condition for temperature. The global well-posedness of strong solutions with initial vacuum is established and the exponential decay estimates of the solutions are obtained, provided the initial total energy is suitably small. More interestingly, it is shown that for \(p\in (3,6)\), the \(L^p\)-norm of the gradient of density remains uniformly bounded for all \(t\ge 0\). This is in sharp contrast to that in (Chen et al. in Global well-posedness of full compressible magnetohydrodynamic system in 3D bounded domains with large oscillations and vacuum. arXiv:2208.04480, Li et al. in Global existence of classical solutions to full compressible Navier–Stokes equations with large oscillations and vacuum in 3D bounded domains. arXiv:2207.00441), where the exponential growth of the gradient of density in \(L^p\)-norm was explored.

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来源期刊

Journal of Mathematical Fluid Mechanics 物理-力学

CiteScore

2.00

自引率

15.40%

发文量

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.