Quantum mechanical analysis of nonlinear optical response of interacting graphene nanoflakes

Quantum mechanical analysis of nonlinear optical response of interacting graphene nanoflakes

We propose a distant-neighbor quantum-mechanical (DNQM) approach to study the linear and nonlinear optical properties of graphene nanoflakes (GNFs). In contrast to the widely used tight-binding description of the electronic states that considers only the nearest-neighbor coupling between the atoms,...

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Main Authors: Hanying Deng, David Zs. Manrique, Xianfeng Chen, Nicolae C. Panoiu, Fangwei Ye
Format: Article
Language:English
Published: AIP Publishing LLC 2018-01-01
Series:APL Photonics
Online Access:http://dx.doi.org/10.1063/1.5009600
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spelling doaj-471df21f7d504a63a351011bc2a126672020-11-24T21:12:53ZengAIP Publishing LLCAPL Photonics2378-09672018-01-0131016102016102-810.1063/1.5009600001801APPQuantum mechanical analysis of nonlinear optical response of interacting graphene nanoflakesHanying Deng0David Zs. Manrique1Xianfeng Chen2Nicolae C. Panoiu3Fangwei Ye4Key Laboratory for Laser Plasma (Ministry of Education), Collaborative Innovation Center of IFSA (CICIFSA), School of Physics and Astronomy, Shanghai Jiao Tong University, 800 Dongchuan Road, Shanghai 200240, ChinaDepartment of Electronic and Electrical Engineering, University College London, Torrington Place, London WC1E7JE, United KingdomKey Laboratory for Laser Plasma (Ministry of Education), Collaborative Innovation Center of IFSA (CICIFSA), School of Physics and Astronomy, Shanghai Jiao Tong University, 800 Dongchuan Road, Shanghai 200240, ChinaDepartment of Electronic and Electrical Engineering, University College London, Torrington Place, London WC1E7JE, United KingdomKey Laboratory for Laser Plasma (Ministry of Education), Collaborative Innovation Center of IFSA (CICIFSA), School of Physics and Astronomy, Shanghai Jiao Tong University, 800 Dongchuan Road, Shanghai 200240, ChinaWe propose a distant-neighbor quantum-mechanical (DNQM) approach to study the linear and nonlinear optical properties of graphene nanoflakes (GNFs). In contrast to the widely used tight-binding description of the electronic states that considers only the nearest-neighbor coupling between the atoms, our approach is more accurate and general, as it captures the electron-core interactions between all atoms in the structure. Therefore, as we demonstrate, the DNQM approach enables the investigation of the optical coupling between two closely separated but chemically unbound GNFs. We also find that the optical response of GNFs depends crucially on their shape, size, and symmetry properties. Specifically, increasing the size of nanoflakes is found to shift their accommodated quantum plasmon oscillations to lower frequency. Importantly, we show that by embedding a cavity into GNFs, one can change their symmetry properties, tune their optical properties, or enable otherwise forbidden second-harmonic generation processes.http://dx.doi.org/10.1063/1.5009600
collection DOAJ
language English
format Article
sources DOAJ
author Hanying Deng
David Zs. Manrique
Xianfeng Chen
Nicolae C. Panoiu
Fangwei Ye
spellingShingle Hanying Deng
David Zs. Manrique
Xianfeng Chen
Nicolae C. Panoiu
Fangwei Ye
Quantum mechanical analysis of nonlinear optical response of interacting graphene nanoflakes
APL Photonics
author_facet Hanying Deng
David Zs. Manrique
Xianfeng Chen
Nicolae C. Panoiu
Fangwei Ye
author_sort Hanying Deng
title Quantum mechanical analysis of nonlinear optical response of interacting graphene nanoflakes
title_short Quantum mechanical analysis of nonlinear optical response of interacting graphene nanoflakes
title_full Quantum mechanical analysis of nonlinear optical response of interacting graphene nanoflakes
title_fullStr Quantum mechanical analysis of nonlinear optical response of interacting graphene nanoflakes
title_full_unstemmed Quantum mechanical analysis of nonlinear optical response of interacting graphene nanoflakes
title_sort quantum mechanical analysis of nonlinear optical response of interacting graphene nanoflakes
publisher AIP Publishing LLC
series APL Photonics
issn 2378-0967
publishDate 2018-01-01
description We propose a distant-neighbor quantum-mechanical (DNQM) approach to study the linear and nonlinear optical properties of graphene nanoflakes (GNFs). In contrast to the widely used tight-binding description of the electronic states that considers only the nearest-neighbor coupling between the atoms, our approach is more accurate and general, as it captures the electron-core interactions between all atoms in the structure. Therefore, as we demonstrate, the DNQM approach enables the investigation of the optical coupling between two closely separated but chemically unbound GNFs. We also find that the optical response of GNFs depends crucially on their shape, size, and symmetry properties. Specifically, increasing the size of nanoflakes is found to shift their accommodated quantum plasmon oscillations to lower frequency. Importantly, we show that by embedding a cavity into GNFs, one can change their symmetry properties, tune their optical properties, or enable otherwise forbidden second-harmonic generation processes.
url http://dx.doi.org/10.1063/1.5009600
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AT nicolaecpanoiu quantummechanicalanalysisofnonlinearopticalresponseofinteractinggraphenenanoflakes
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