Nonlocal transformation optics
Abstract
We show that the powerful framework of transformation optics may be exploited for engineering the nonlocal response of artificial electromagnetic materials. Relying on the form-invariant properties of coordinate-transformed Maxwell's equations in the spectral domain, we derive the general constitutive "blueprints" of transformation media yielding prescribed nonlocal field-manipulation effects, and provide a physically-incisive and powerful geometrical interpretation in terms of deformation of the equi-frequency contours. In order to illustrate the potentials of our approach, we present an example of application to a wave-splitting refraction scenario, which may be implemented via a simple class of artificial materials. Our results provide a systematic and versatile framework which may open intriguing venues in dispersion engineering of artificial materials.
Cite
@article{arxiv.1112.0407,
title = {Nonlocal transformation optics},
author = {Giuseppe Castaldi and Vincenzo Galdi and Andrea Alu' and Nader Engheta},
journal= {arXiv preprint arXiv:1112.0407},
year = {2015}
}
Comments
6 pages, 3 figures; supplementary material available online