Analysis and mean-field derivation of a porous-medium equation with fractional diffusion

IF 2.1 2区 数学 Q1 MATHEMATICS Communications in Partial Differential Equations Pub Date : 2021-09-17 DOI:10.1080/03605302.2022.2118608
Li Chen, Alexandra Holzinger, A. Jüngel, N. Zamponi
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引用次数: 6

Abstract

Abstract A mean-field-type limit from stochastic moderately interacting many-particle systems with singular Riesz potential is performed, leading to nonlocal porous-medium equations in the whole space. The nonlocality is given by the inverse of a fractional Laplacian, and the limit equation can be interpreted as a transport equation with a fractional pressure. The proof is based on Oelschläger’s approach and a priori estimates for the associated diffusion equations, coming from energy-type and entropy inequalities as well as parabolic regularity. An existence analysis of the fractional porous-medium equation is also provided, based on a careful regularization procedure, new variants of fractional Gagliardo–Nirenberg inequalities, and the div-curl lemma. A consequence of the mean-field limit estimates is the propagation of chaos property.
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含分数扩散的多孔介质方程的分析和平均场推导
摘要利用具有奇异Riesz势的随机适度相互作用多粒子系统的平均场型极限,得到了整个空间的非局部多孔介质方程。非定域性由分数阶拉普拉斯算子的逆给出,极限方程可以解释为分数阶压力下的输运方程。证明是基于Oelschläger的方法和相关扩散方程的先验估计,来自能量型和熵不等式以及抛物线规则。在正则化过程的基础上,给出了分数阶多孔介质方程的存在性分析,给出了分数阶gagliado - nirenberg不等式的新变体和div-旋度引理。平均场极限估计的一个结果是混沌特性的传播。
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来源期刊
CiteScore
3.60
自引率
0.00%
发文量
43
审稿时长
6-12 weeks
期刊介绍: This journal aims to publish high quality papers concerning any theoretical aspect of partial differential equations, as well as its applications to other areas of mathematics. Suitability of any paper is at the discretion of the editors. We seek to present the most significant advances in this central field to a wide readership which includes researchers and graduate students in mathematics and the more mathematical aspects of physics and engineering.
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