Enhanced Raman Scattering of Graphene using Double Resonance in Silicon Photonic Crystal Nanocavities

机译：在硅光子晶体纳米腔中使用双共振增强石墨烯的拉曼散射。

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We demonstrate enhancements of Raman scattering from grapheneon L3 photonic crystals (Fig. 1a) using double resonances, whichoriginate from simultaneous enhancements by a localized guided modeand a cavity mode . By adjusting the photonic crystal cavityparameters, the double resonance can be tuned to the G’ Ramanscattering. Excitation wavelength dependence measurements show alarge Raman peak enhancement when the excitation and emissionwavelengths meet the double resonance condition (Fig. 1b).Furthermore, spatial imaging measurements are performed to confirmthat the enhancement is localized at the cavity, and we find that theenhanced Raman intensity is 60 times larger compared to theon-substrate Raman signal. The observed cavity enhancement ofRaman scattering opens up new possibilities for the development ofgraphene-based light sources for silicon photonics.

机译：我们展示了使用双共振从石墨烯L3光子晶体（图1a）的拉曼散射增强，其起源于通过局部导向模式和腔模式的同时增强。通过调整光子晶体腔参数，可以将双重共振调整为G'拉曼散射。当激发和发射波长满足双重共振条件时，激发波长依赖性测量结果显示出较大的拉曼峰增强（图1b）。此外，进行空间成像测量以确认该增强位于腔内，我们发现增强的拉曼强度为与衬底上的拉曼信号相比大60倍。观察到的拉曼散射腔增强特性为开发用于硅光子的基于石墨烯的光源开辟了新的可能性。

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《応用物理学会秋季学術講演会;応用物理学会》|2018年|04.110|共1页
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W. Gomulya; H. Machiya; K. Kashiwa; T. Inoue; S. Chiashi; S. Maruyama; Y. K. Kato;
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Nanoscale Quantum Photonics Laboratory RIKEN Cluster for Pioneering Research Saitama 351-0198 Japan Quantum Optoelectronics Research Team RIKEN Center for Advanced Photonics Saitama 351-0198 Japan widianta.gomulya@riken.jp;

Quantum Optoelectronics Research Team RIKEN Center for Advanced Photonics Saitama 351-0198 Japan Department of Electrical Engineering The University of Tokyo Tokyo 113-8656 Japan;

Department of Mechanical Engineering The University of Tokyo Tokyo 113-8656 Japan;

Department of Mechanical Engineering The University of Tokyo Tokyo 113-8656 Japan Energy NanoEngineering Laboratory National Institute of Advanced Industrial Science and Technology (AIST) Ibaraki 305-8564 Japan;

Nanoscale Quantum Photonics Laboratory RIKEN Cluster for Pioneering Research Saitama 351-0198 Japan Quantum Optoelectronics Research Team RIKEN Center for Advanced Photonics Saitama 351-0198 Japan;

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1. Enhanced Raman scattering of graphene using double resonance in silicon photonic crystal nanocavities [J] . Gomulya W., Machiya H., Kashiwa K., Applied Physics Letters . 2018,第8期

机译：在硅光子晶体纳米腔中利用双共振增强石墨烯的拉曼散射
2. APS -APS March Meeting 2017 - Event - Enhancement of Raman scattering from monolayer graphene by photonic crystal nanocavities [J] . Issei Kimura, Masahiro Yoshida, Masaki Sota, Bulletin of the American Physical Society . 2017,第4期

机译：APS -APS 2017年3月会议-活动-光子晶体纳米腔增强单层石墨烯的拉曼散射
3. Enhancement of photoluminescence and raman scattering in one-dimensional photonic crystals based on porous silicon [J] . Gonchar K.A., Musabek G.K., Taurbayev T.I., Semiconductors . 2011,第5期

机译：基于多孔硅的一维光子晶体中光致发光和拉曼散射的增强
4. Enhanced Raman Scattering of Graphene using Double Resonance in Silicon Photonic Crystal Nanocavities [C] . W. Gomulya, H. Machiya, K. Kashiwa, 応用物理学会秋季学術講演会 . 2018

机译：使用双共振在硅光子晶体纳米覆盖中增强石墨烯的拉曼散射
5. Light scattering studies of two systems. I.~Surface plasmon enhanced Brillouin scattering in silver films: Double resonance effect. II.~Relation of anomalous Raman spectra of gallium-arsenide to metastable transitions of EL2 defects. [D] . Robertson, William Michael. 1988

机译：两种系统的光散射研究。 I.〜表面等离激元增强了银膜中的布里渊散射：双重共振效应。 II。〜砷化镓的拉曼光谱异常与EL2缺陷的亚稳转变的关系。
6. Near-Infrared Surface-Enhanced Raman Scattering on Silver-Coated Porous Silicon Photonic Crystals [O] . Marko Škrabić, Marin Kosović, Marijan Gotić, 2019

机译：涂银多孔硅光子晶体上的近红外表面增强拉曼散射
7. Raman Silicon Laser Using a Photonic Crystal Nanocavity [O] . Yasushi TAKAHASHI, Yoshitaka INUI, Takashi ASANO, 2020

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8. Theoretical Studies of Resonance Enhanced Stimulated Raman Scattering (RESRS) of Frequency Doubled Alexandrite Laser Wavelength in Cesium Vapor. Progress Report, July-December 1987 [R] . Lawandy, N. M. 1987

机译：铯蒸气中倍频紫翠石激光波长共振增强受激拉曼散射（REsRs）的理论研究。 1987年7月至12月的进展报告

Enhanced Raman Scattering of Graphene using Double Resonance in Silicon Photonic Crystal Nanocavities

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