Transformation optics from macroscopic to nanoscale regimes: a review

Jingjing Zhang; John B. Pendry; Yu Luo

doi:10.1117/1.AP.1.1.014001

28 January 2019 Transformation optics from macroscopic to nanoscale regimes: a review

Jingjing Zhang, John B. Pendry, Yu Luo

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Advanced Photonics, Vol. 1, Issue 1, 014001 (January 2019). https://doi.org/10.1117/1.AP.1.1.014001

Abstract

Transformation optics is a mathematical method that is based on the geometric interpretation of Maxwell’s equations. This technique enables a direct link between a desired electromagnetic (EM) phenomenon and the material response required for its occurrence, providing a powerful and intuitive design tool for the control of EM fields on all length scales. With the unprecedented design flexibility offered by transformation optics (TO), researchers have demonstrated a host of interesting devices, such as invisibility cloaks, field concentrators, and optical illusion devices. Recently, the applications of TO have been extended to the subwavelength scale to study surface plasmon-assisted phenomena, where a general strategy has been suggested to design and study analytically various plasmonic devices and investigate the associated phenomena, such as nonlocal effects, Casimir interactions, and compact dimensions. We review the basic concept of TO and its advances from macroscopic to the nanoscale regimes.

CC BY: © The Authors. Published by SPIE under a Creative Commons Attribution 4.0 Unported License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI.

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Jingjing Zhang, John B. Pendry, and Yu Luo "Transformation optics from macroscopic to nanoscale regimes: a review," Advanced Photonics 1(1), 014001 (28 January 2019). https://doi.org/10.1117/1.AP.1.1.014001

Received: 12 November 2018; Accepted: 7 December 2018; Published: 28 January 2019

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KEYWORDS

Plasmonics

Metals

Surface plasmons

Nanowires

Absorption

Photonics

Metamaterials

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