具有对流的各向异性稳定非局部扩散问题的大时间行为

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-09-19 DOI:10.1016/j.matpur.2023.09.009
Jørgen Endal , Liviu I. Ignat , Fernando Quirós
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引用次数: 2

摘要

我们研究了具有非线性对流项的非局部热方程的Cauchy问题非负解的大时间行为。扩散算子是稳定Lévy过程的无穷小生成器,它可能是高度各向异性的。假设初始数据是有界的和可积的。溶液的质量在演化过程中是守恒的,并且大时间行为由具有相同质量的极限方程的源型溶液给出,该极限方程取决于对流和扩散的相对强度。当扩散强于对流时,原方程渐近简化为纯扩散非局部热方程。当对流占主导地位时,它只在对流的方向上这样做,并且极限方程在与该方向正交的子空间中仍然是扩散的,扩散算子是原始算子在子空间上的“投影”。这个投影的确定是本文的主要问题之一。当对流和扩散为同一阶时,极限方程与原始方程一致。即使在扩散算子是分数拉普拉斯算子的各向同性情况下,我们的大多数结果也是新的。只要质量保持不变,我们就能够涵盖慢对流和快对流的情况。快速对流对应于非局部Lipschitz,而仅局部Hölder的对流非线性,以前在非局部扩散设置中没有考虑过。
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Large-time behaviour for anisotropic stable nonlocal diffusion problems with convection

We study the large-time behaviour of nonnegative solutions to the Cauchy problem for a nonlocal heat equation with a nonlinear convection term. The diffusion operator is the infinitesimal generator of a stable Lévy process, which may be highly anisotropic. The initial data are assumed to be bounded and integrable. The mass of the solution is conserved along the evolution, and the large-time behaviour is given by the source-type solution, with the same mass, of a limit equation that depends on the relative strength of convection and diffusion. When diffusion is stronger than convection the original equation simplifies asymptotically to the purely diffusive nonlocal heat equation. When convection dominates, it does so only in the direction of convection, and the limit equation is still diffusive in the subspace orthogonal to this direction, with a diffusion operator that is a “projection” of the original one onto the subspace. The determination of this projection is one of the main issues of the paper. When convection and diffusion are of the same order the limit equation coincides with the original one.

Most of our results are new even in the isotropic case in which the diffusion operator is the fractional Laplacian. We are able to cover both the cases of slow and fast convection, as long as the mass is preserved. Fast convection, which corresponds to convection nonlinearities that are not locally Lipschitz, but only locally Hölder, has not been considered before in the nonlocal diffusion setting.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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