arXiv:1908.04050 Abstract | arXiv Analytics

arXiv:1908.04050 [math.AP]Abstract References Reviews Resources

The Bilinear Strategy for Calderón's Problem

Published 2019-08-12Version 1

Electrical Impedance Imaging would suffer a serious obstruction if for two different conductivities the potential and current measured at the boundary were the same. The Calder\'on's problem is to decide whether the conductivity is indeed uniquely determined by the data at the boundary. In $\mathbb{R}^d$, for $d=5,6$, we show that uniqueness holds when the conductivity is in $W^{1+\frac{d-5}{2p}+, p}(\Omega)$, for $d\le p <\infty$. This improves on recent results of Haberman, and of Ham, Kwon and Lee. The main novelty of the proof is an extension of Tao's bilinear Theorem.

Comments: 42 pages, 3 figures

Categories: math.AP, math.CA

Subjects: 35J25, 42B37

Keywords: calderóns problem, bilinear strategy, conductivity, taos bilinear theorem, calderons problem

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