Matti Lassas, Tony Liimatainen, Mikko Salo
Published 2018-06-13Version 1
We introduce a new approach to the anisotropic Calder\'on problem, based on a map called Poisson embedding that identifies the points of a Riemannian manifold with distributions on its boundary. We give a new uniqueness result for a large class of Calder\'on type inverse problems for quasilinear equations in the real analytic case. The approach also leads to a new proof of the result by Lassas and Uhlmann (2001) solving the Calder\'on problem on real analytic Riemannian manifolds. The proof uses the Poisson embedding to determine the harmonic functions in the manifold up to a harmonic morphism. The method also involves various Runge approximation results for linear elliptic equations.
Analysis of linear elliptic equations with general drifts and $L^1$-zero-order terms
The Calderón problem with partial data for conductivities with $3/2$ derivatives
The Calderón problem is an inverse source problem
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