Nonlinear optics with resonant metasurfaces

Thomas Pertsch; Yuri Kivshar

doi:10.1557/mrs.2020.65

Nonlinear optics with resonant metasurfaces

Published online by Cambridge University Press: 11 March 2020

Thomas Pertsch and

Yuri Kivshar

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Thomas Pertsch: Affiliation:
Friedrich Schiller University Jena, and Fraunhofer Institute for Applied Optics and Precision Engineering Jena, Germany; thomas.pertsch@uni-jena.de
Yuri Kivshar: Affiliation:
The Australian National University, Australia; ysk124@physics.anu.edu.au

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Abstract

The field of nonlinear optics is a well-established discipline that relies on macroscopic media and employs propagation distances longer than a wavelength of light. Recent progress with electromagnetic metamaterials has allowed for the expansion of this field into new directions of new phenomena and novel functionalities. In particular, nonlinear effects in thin, artificially structured materials such as metasurfaces do not rely on phase-matching conditions and symmetry-related selection rules of natural materials; they may be substantially enhanced by strong local and collective resonances of fields inside the metasurface nanostructures. Consequently, nonlinear processes may extend beyond simple harmonic generation and spectral broadening due to electronic nonlinearities. This article provides a brief review of basic concepts and recent results in the field of nonlinear optical metasurfaces.

Type: Metasurfaces for Flat Optics
Information: MRS Bulletin , Volume 45 , Issue 3: Metasurfaces for Flat Optics , March 2020 , pp. 210 - 220

DOI: https://doi.org/10.1557/mrs.2020.65 [Opens in a new window]
Copyright: Copyright © Materials Research Society 2020

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Nonlinear optics with resonant metasurfaces

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