On an electromagnetic problem in a corner and its applications
Abstract
Let be a (non-degenerate) truncated corner in with being its apex, and , , where is the positive H\"older index. Consider the following electromagnetic problem \left\{\begin{split} & \nabla\wedge \mathbf{E}-\mathrm{i}\omega \mu_0 \mathbf{H}=\mathbf{F}_{1} \quad \mbox{in $\mathcal{K}^{r_0}_{x_0}$},\\ & \, \nabla\wedge \mathbf{H}+\mathrm{i}\omega\varepsilon_0 \mathbf{E}=\mathbf{F}_{2} \quad \mbox{in $\mathcal{K}^{r_0}_{x_0}$}, \\ &\, \nu\wedge \mathbf{E}=\nu\wedge\mathbf{H}=0 \qquad\mbox{on $\partial \mathcal{K}^{r_0}_{x_0}\setminus \partial B_{r_0}(x_0)$}, \end{split}\right. where denotes the exterior unit normal vector of . We prove that and must vanish at the apex . There are a series of interesting consequences of this vanishing property in several separate but intriguingly connected topics in electromagnetism. First, we can geometrically characterize non-radiating sources in time-harmonic electromagnetic scattering. Secondly, we consider the inverse source scattering problem for time-harmonic electromagnetic waves and establish the uniqueness result in determining the polyhedral support of a source by a single far-field measurement. Thirdly, we derive a property of the geometric structure of electromagnetic interior transmission eigenfunctions near corners. Finally, we also discuss its implication to invisibility cloaking.
Cite
@article{arxiv.1901.00581,
title = {On an electromagnetic problem in a corner and its applications},
author = {Emilia Blåsten and Hongyu Liu and Jingni Xiao},
journal= {arXiv preprint arXiv:1901.00581},
year = {2021}
}