Phase evolution along integrated localized surface plasmon chain

机译：沿局部局部等离激元链的相演化

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The electromagnetic excitation of metallic nanoparticles (MNP) has attracted a great interest in the past decade due to the ability of surface plasmons to surpass the diffraction limit of conventional optics [1]. Chains of coupled resonant MNP have been proposed to allow transfer of electromagnetic energy from particle to particle at nanometer scales [2]. However, the most of the work was focused on resonance amplitude variation in plasmonic nanostructures, considering energy transfer, dissipation, or excitation mechanisms [3]. The phase profile along coupled resonant nanostructures supporting localized surface plasmons (LSP) has never been analysed. Nevertheless, phase analysis in collectively oscillating dipoles brings a new viewpoint for MNP excitation physical mechanisms understanding.

机译：在过去的十年中，金属纳米粒子（MNP）的电磁激发引起了人们极大的兴趣，这是由于表面等离子体激元能够超越常规光学器件的衍射极限[1]。已经提出了耦合共振MNP链，以允许电磁能在纳米尺度上从一个粒子转移到另一个粒子[2]。但是，大多数工作都集中在等离子纳米结构的共振振幅变化上，考虑了能量转移，耗散或激发机制[3]。从未分析过沿支持局部表面等离子体激元（LSP）的耦合共振纳米结构的相位分布。然而，集体振荡偶极子中的相位分析为MNP激发物理机理的理解带来了新的观点。

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《2013 Conference on Lasers and Electro-Optics Europe amp; International Quantum Electronics Conference》|2013年|1|共1页
会议地点 Munich(DE)
作者
Fevrier M.; Gogol P.; Apuzzo A.; Blaize S.;
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Univ. Paris-Sud, Institut d#039;

Electronique Fondamentale, 91405 Orsay cedex, Francec;

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1. The simulation of localized surface plasmon and surface plasmon polariton in wire grid polarizer integrated on InP substrate for InGaAs sensor [J] . Rui Wang, Tao Li, Xiumei Shao, AIP Advances . 2015,第7期

机译：InGaAs传感器集成在InP衬底上的线栅偏振器中局部表面等离子体激元和表面等离子体激元的模拟
2. Phase Transformation and Evolution of Localized Surface Plasmon Resonance in Cu2-xS Thin Films Deposited at 60 degrees C [J] . Savariraj A. Dennyson, Kim Hee-Je, Karuppanan Senthil, The journal of physical chemistry, C. Nanomaterials and interfaces . 2017,第45期

机译：在60摄氏度下沉积Cu2-XS薄膜中局部表面等离子体共振的相变和演变
3. Nanohole Chains for Directional and Localized Surface Plasmon Excitation [J] . van Oosten D, Spasenovic M, Kuipers L Nano letters . 2010,第1期

机译：纳米孔链定向和局部表面等离子激发
4. Phase evolution along integrated localized surface plasmon chain [C] . Fevrier M., Gogol P., Apuzzo A., 2013 Conference on Lasers and Electro-Optics Europe Internationaluantum Electronics Conference . 2013

机译：沿集成局部表面等离子体链的相位演化
5. Studies of surface plasmons and localized surface plasmons at terahertz frequencies. [D] . Lu, Xinchao. 2009

机译：研究太赫兹频率下的表面等离子体激元和局部表面等离子体激元。
6. Smartphone Biosensor System with Multi-Testing Unit Based on Localized Surface Plasmon Resonance Integrated with Microfluidics Chip [O] . Zhiyuan Fan, Zhaoxin Geng, Weihao Fang, 2020

机译：基于微流控芯片的局部表面等离子体共振的多测试单元智能手机生物传感器系统
7. The simulation of localized surface plasmon and surface plasmon polariton in wire grid polarizer integrated on InP substrate for InGaAs sensor [O] . Rui Wang, Tao Li, Xiumei Shao, 2015

机译：InGaas传感器Inp衬底上线栅偏振器中局域表面等离子体和表面等离子体激元的模拟

Phase evolution along integrated localized surface plasmon chain

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