Calderón problem for fractional Schrödinger operators on closed Riemannian manifolds

arXiv - MATH - Spectral Theory Pub Date : 2024-07-23 DOI:arxiv-2407.16866

Ali Feizmohammadi, Katya Krupchyk, Gunther Uhlmann

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Abstract

We study an analog of the anisotropic Calder\'on problem for fractional Schr\"odinger operators $(-\Delta_g)^\alpha + V$ with $\alpha \in (0,1)$ on closed Riemannian manifolds of dimensions two and higher. We prove that the knowledge of a Cauchy data set of solutions of the fractional Schr\"odinger equation, given on an open nonempty a priori known subset of the manifold determines both the Riemannian manifold up to an isometry and the potential up to the corresponding gauge transformation, under certain geometric assumptions on the manifold as well as the observation set. Our method of proof is based on: (i) studying a new variant of the Gel'fand inverse spectral problem without the normalization assumption on the energy of eigenfunctions, and (ii) the discovery of an entanglement principle for nonlocal equations involving two or more compactly supported functions. Our solution to (i) makes connections to antipodal sets as well as local control for eigenfunctions and quantum chaos, while (ii) requires sharp interpolation results for holomorphic functions. We believe that both of these results can find applications in other areas of inverse problems.

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封闭黎曼流形上分数薛定谔算子的卡尔德龙问题

我们研究了分数薛定谔算子$(-\Delta_g)^\alpha + V$的各向异性卡尔德问题的类似问题，该算子$(-\Delta_g)^\alpha + V$在(0,1)$上位于维数为2或更高的封闭黎曼流形上。我们证明，在关于流形和观测集的某些几何假设下，分数施定方程解的考奇数据集的知识，在流形的开放非空先验已知子集上，既决定了黎曼流形的等值性，也决定了相应规规变换的势。我们的证明方法基于：(i) 研究 Gel'fand 逆谱问题的新变体，而不考虑特征函数能量的归一化假设；(ii) 发现涉及两个或更多紧凑支撑函数的非局部方程的纠缠原理。我们对(i)的求解与antipodal集合以及特征函数和量子混沌的局部控制有关，而(ii)则需要全形函数的尖锐插值结果。我们相信，这两个结果都能在逆问题的其他领域找到应用。

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arXiv - MATH - Spectral Theory

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