Enhanced Third-Harmonic Generation from a Metal/Semiconductor Core/Shell Hybrid Nanostructure

Omri Bar-Elli; Eran Grinvald; Noga Meir; Lior Neeman; Dan Oron

doi:10.1021/acsnano.5b01834

Enhanced Third-Harmonic Generation from a Metal/Semiconductor Core/Shell Hybrid Nanostructure

Omri Bar-Elli, Eran Grinvald, Noga Meir, Lior Neeman, Dan Oron

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

31 Scopus citations

Abstract

Nonlinear optical processes can be dramatically enhanced via the use of localized surface plasmon modes in metal nanoparticles. Here we show how more elaborate structures, based on shape-controlled Au/Cu₂O core/shell nanostructures, enable further enhancement of the nanoparticle third-harmonic scattering cross-section. The semiconducting component takes a twofold role in this structure, both providing a knob to tune the resonant frequency of the gold plasmon and providing resonant enhancement by virtue of its excitonic states. The advantages and deficiencies of using such core/shell metal/semiconductor structures are discussed.

Original language	English
Pages (from-to)	8064-8069
Number of pages	6
Journal	ACS Nano
Volume	9
Issue number	8
DOIs	https://doi.org/10.1021/acsnano.5b01834
State	Published - 25 Aug 2015
Externally published	Yes

Keywords

core/shell nanoparticles
plasmonics
third-harmonic generation

ASJC Scopus subject areas

General Materials Science
General Engineering
General Physics and Astronomy

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10.1021/acsnano.5b01834

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title = "Enhanced Third-Harmonic Generation from a Metal/Semiconductor Core/Shell Hybrid Nanostructure",

abstract = "Nonlinear optical processes can be dramatically enhanced via the use of localized surface plasmon modes in metal nanoparticles. Here we show how more elaborate structures, based on shape-controlled Au/Cu2O core/shell nanostructures, enable further enhancement of the nanoparticle third-harmonic scattering cross-section. The semiconducting component takes a twofold role in this structure, both providing a knob to tune the resonant frequency of the gold plasmon and providing resonant enhancement by virtue of its excitonic states. The advantages and deficiencies of using such core/shell metal/semiconductor structures are discussed.",

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author = "Omri Bar-Elli and Eran Grinvald and Noga Meir and Lior Neeman and Dan Oron",

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AU - Bar-Elli, Omri

AU - Grinvald, Eran

AU - Meir, Noga

AU - Neeman, Lior

AU - Oron, Dan

PY - 2015/8/25

Y1 - 2015/8/25

N2 - Nonlinear optical processes can be dramatically enhanced via the use of localized surface plasmon modes in metal nanoparticles. Here we show how more elaborate structures, based on shape-controlled Au/Cu2O core/shell nanostructures, enable further enhancement of the nanoparticle third-harmonic scattering cross-section. The semiconducting component takes a twofold role in this structure, both providing a knob to tune the resonant frequency of the gold plasmon and providing resonant enhancement by virtue of its excitonic states. The advantages and deficiencies of using such core/shell metal/semiconductor structures are discussed.

AB - Nonlinear optical processes can be dramatically enhanced via the use of localized surface plasmon modes in metal nanoparticles. Here we show how more elaborate structures, based on shape-controlled Au/Cu2O core/shell nanostructures, enable further enhancement of the nanoparticle third-harmonic scattering cross-section. The semiconducting component takes a twofold role in this structure, both providing a knob to tune the resonant frequency of the gold plasmon and providing resonant enhancement by virtue of its excitonic states. The advantages and deficiencies of using such core/shell metal/semiconductor structures are discussed.

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KW - third-harmonic generation

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ER -

Enhanced Third-Harmonic Generation from a Metal/Semiconductor Core/Shell Hybrid Nanostructure

Abstract

Keywords

ASJC Scopus subject areas

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