Nonlinear Metasurfaces Governed by Bound States in the Continuum

Kirill Koshelev; Yutao Tang; Kingfai Li; Duk Yong Choi; Guixin Li; Yuri Kivshar

doi:10.1021/acsphotonics.9b00700

Nonlinear Metasurfaces Governed by Bound States in the Continuum

Kirill Koshelev^*, Yutao Tang, Kingfai Li, Duk Yong Choi, Guixin Li, Yuri Kivshar

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

414 Citations (Scopus)

Abstract

Nonlinear nanostructured surfaces provide a paradigm shift in nonlinear optics with new ways to control and manipulate frequency conversion processes at the nanoscale, also offering novel opportunities for applications in photonics, chemistry, material science, and biosensing. Here, we develop a general approach to employ sharp resonances in metasurfaces originated from the physics of bound states in the continuum for both engineering and enhancing the nonlinear response. We study experimentally the third-harmonic generation from metasurfaces composed of symmetry-broken silicon meta-atoms and reveal that the harmonic generation intensity depends critically on the asymmetry parameter. We employ the concept of the critical coupling of light to the metasurface resonances to uncover the effect of radiative and nonradiative losses on the nonlinear conversion efficiency.

Original language	English
Pages (from-to)	1639-1644
Number of pages	6
Journal	ACS Photonics
Volume	6
Issue number	7
DOIs	https://doi.org/10.1021/acsphotonics.9b00700
Publication status	Published - 25 Jun 2019

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10.1021/acsphotonics.9b00700

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abstract = "Nonlinear nanostructured surfaces provide a paradigm shift in nonlinear optics with new ways to control and manipulate frequency conversion processes at the nanoscale, also offering novel opportunities for applications in photonics, chemistry, material science, and biosensing. Here, we develop a general approach to employ sharp resonances in metasurfaces originated from the physics of bound states in the continuum for both engineering and enhancing the nonlinear response. We study experimentally the third-harmonic generation from metasurfaces composed of symmetry-broken silicon meta-atoms and reveal that the harmonic generation intensity depends critically on the asymmetry parameter. We employ the concept of the critical coupling of light to the metasurface resonances to uncover the effect of radiative and nonradiative losses on the nonlinear conversion efficiency.",

keywords = "all-dielectric metasurfaces, bound states in the continuum, meta-optics, nanophotonics, nonlinear optics, third-harmonic generation",

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AU - Choi, Duk Yong

AU - Li, Guixin

AU - Kivshar, Yuri

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AB - Nonlinear nanostructured surfaces provide a paradigm shift in nonlinear optics with new ways to control and manipulate frequency conversion processes at the nanoscale, also offering novel opportunities for applications in photonics, chemistry, material science, and biosensing. Here, we develop a general approach to employ sharp resonances in metasurfaces originated from the physics of bound states in the continuum for both engineering and enhancing the nonlinear response. We study experimentally the third-harmonic generation from metasurfaces composed of symmetry-broken silicon meta-atoms and reveal that the harmonic generation intensity depends critically on the asymmetry parameter. We employ the concept of the critical coupling of light to the metasurface resonances to uncover the effect of radiative and nonradiative losses on the nonlinear conversion efficiency.

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Nonlinear Metasurfaces Governed by Bound States in the Continuum

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