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Main Authors: Sun, Shiwei, Nakamura, Gen, Wang, Haibing
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.23948
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author Sun, Shiwei
Nakamura, Gen
Wang, Haibing
author_facet Sun, Shiwei
Nakamura, Gen
Wang, Haibing
contents Domain sampling methods called the range test (RT) and no-response test (NRT), and their duality are known for several inverse scattering problems and an inverse boundary value problem for the Laplace operator (see Section 1 for more details). In our previous work [21], we established the duality between the NRT and RT, and demonstrated the convergence of the RT for the heat equation. We also provided numerical studies for both methods. However, we did not address the convergence for the NRT. As a continuation of this work, we prove the convergence of the NRT without using the duality. Specifically, assuming there exists a cavity $D$ inside a heat conductor $Ω$, we define an indicator function $I_{NRT}(G)$ for a prescribed test domain $G$, where $\overline G\subsetΩ$ (i.e., $G\SubsetΩ$). By using the analytical extension property of solutions to the heat equation with respect to the spatial variables, we prove the convergence result given as $I_{NRT}(G)<\infty$ if and only if $\overline{D}\subset \overline{G}$, provided that the solution to the heat equation cannot be analytically extended across the boundary of the cavity. Thus, we complete the theoretical study of both methods. Here the analytic extension of solutions does not require the property that the solutions are real analytic with respect to the space variables. However, for the proof of the mentioned convergence result, we fully use this property.
format Preprint
id arxiv_https___arxiv_org_abs_2506_23948
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle On the convergence of the no-response test for the heat equation
Sun, Shiwei
Nakamura, Gen
Wang, Haibing
Analysis of PDEs
35R30, 31A10
Domain sampling methods called the range test (RT) and no-response test (NRT), and their duality are known for several inverse scattering problems and an inverse boundary value problem for the Laplace operator (see Section 1 for more details). In our previous work [21], we established the duality between the NRT and RT, and demonstrated the convergence of the RT for the heat equation. We also provided numerical studies for both methods. However, we did not address the convergence for the NRT. As a continuation of this work, we prove the convergence of the NRT without using the duality. Specifically, assuming there exists a cavity $D$ inside a heat conductor $Ω$, we define an indicator function $I_{NRT}(G)$ for a prescribed test domain $G$, where $\overline G\subsetΩ$ (i.e., $G\SubsetΩ$). By using the analytical extension property of solutions to the heat equation with respect to the spatial variables, we prove the convergence result given as $I_{NRT}(G)<\infty$ if and only if $\overline{D}\subset \overline{G}$, provided that the solution to the heat equation cannot be analytically extended across the boundary of the cavity. Thus, we complete the theoretical study of both methods. Here the analytic extension of solutions does not require the property that the solutions are real analytic with respect to the space variables. However, for the proof of the mentioned convergence result, we fully use this property.
title On the convergence of the no-response test for the heat equation
topic Analysis of PDEs
35R30, 31A10
url https://arxiv.org/abs/2506.23948