具有广义阻抗子区域的子扩散方程的正逆问题

Pub Date : 2021-11-16 DOI:10.21136/AM.2021.0107-20
Isaac Harris
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引用次数: 0

摘要

在本文中,我们考虑了具有不可穿透子区域的域中时间分数扩散的正问题和反问题。在这里,我们假设在子区域的边界上,解满足广义阻抗边界条件。这个边界条件是由施加在边界上的二阶空间微分算子给出的。广义阻抗边界条件可用于腐蚀建模和划界。建立了直接问题的适定性,其中拉普拉斯变换用于研究与时间相关的边值问题。在已知子区域边界的情况下,还研究了根据柯西数据确定参数的逆阻抗问题。证明了从Neumann到Dirichlet映射恢复边界参数的唯一性。
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The direct and inverse problem for sub-diffusion equations with a generalized impedance subregion

In this paper, we consider the direct and inverse problem for time-fractional diffusion in a domain with an impenetrable subregion. Here we assume that on the boundary of the subregion the solution satisfies a generalized impedance boundary condition. This boundary condition is given by a second order spatial differential operator imposed on the boundary. A generalized impedance boundary condition can be used to model corrosion and delimitation. The well-posedness for the direct problem is established where the Laplace transform is used to study the time dependent boundary value problem. The inverse impedance problem of determining the parameters from the Cauchy data is also studied provided the boundary of the subregion is known. The uniqueness of recovering the boundary parameters from the Neumann to Dirichlet mapping is proven.

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