具有超线性梯度的一般非局部汉密尔顿-雅可比方程的比较原理

arXiv - MATH - Analysis of PDEs Pub Date : 2024-09-17 DOI:arxiv-2409.11124

Adina Ciomaga, Tri Minh Le, Olivier Ley, Erwin Topp

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引用次数: 0

摘要

我们得到了带有超线性和胁迫梯度项的非局部汉密尔顿-雅可比方程的不连续粘性子和超子解的比较原理。非局部项是 L\'evy 形式的积分微分算子，具有一般度量：与 x$ 有关，可能是退化的，对阶没有任何限制。这些度量必须满足瓦瑟斯坦/总变异-连续性组合假设，这是在粘性方法背景下用于这类积分微分 PDE 的最弱条件之一。证明依赖于梯度增长所带来的正则效应。我们列举了几个应用于不同类型非局部算子（有密度的度量、可变阶算子、L\'evy-It\^o 算子）的 PDEs 的例子。

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Comparison principle for general nonlocal Hamilton-Jacobi equations with superlinear gradient

We obtain the comparison principle for discontinuous viscosity sub- and supersolutions of nonlocal Hamilton-Jacobi equations, with superlinear and coercive gradient terms. The nonlocal terms are integro-differential operators in L\'evy form, with general measures: $x$-dependent, possibly degenerate and without any restriction on the order. The measures must satisfy a combined Wasserstein/Total Variation-continuity assumption, which is one of the weakest conditions used in the context of viscosity approach for this type of integro-differential PDEs. The proof relies on a regularizing effect due to the gradient growth. We present several examples of applications to PDEs with different types of nonlocal operators (measures with density, operators of variable order, L\'evy-It\^o operators).

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arXiv - MATH - Analysis of PDEs

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