Optical gecko toe: Optically controlled attractive near-field forces between plasmonic metamaterials and dielectric or metal surfaces

J. Zhang; K. F. MacDonald; N. I. Zheludev

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Optical gecko toe: Optically controlled attractive near-field forces between plasmonic metamaterials and dielectric or metal surfaces

机译：壁虎脚趾：等离子超材料与电介质或金属表面之间的光控吸引力近场力

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On the mesoscopic scale, electromagnetic forces are of fundamental importance to an enormously diverse range of systems, from optical tweezers to the adhesion of gecko toes. Here we show that a strong light-driven force may be generated when a plasmonic metamaterial is illuminated in close proximity to a dielectric or metal surface. This near-field force can exceed radiation pressure and Casimir forces to provide an optically controlled adhesion mechanism mimicking the gecko toe: At illumination intensities of just a few tens of nW/μm~2 it is sufficient to overcome the Earth's gravitational pull.

机译：在介观尺度上，电磁力对于从光学镊子到壁虎脚趾的附着力的各种系统至关重要。在这里，我们显示了当等离子超材料在电介质或金属表面附近照亮时，可能会产生强大的光驱动力。这种近场力可能超过辐射压力，而卡西米尔力则超过了卡西米尔力，从而提供了一种模仿壁虎脚趾的光学控制粘附机制：在仅几十nW /μm〜2的光照强度下，就足以克服地球的引力。

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来源
《Physical review》 |2012年第20期|p.205123.1-205123.5|共5页
作者
J. Zhang; K. F. MacDonald; N. I. Zheludev;
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作者单位

Optoelectronics Research Centre & Centre for Photonic Metamaterials, University of Southampton, Southampton SO17 1BJ, UK;

Optoelectronics Research Centre & Centre for Photonic Metamaterials, University of Southampton, Southampton SO17 1BJ, UK;

Optoelectronics Research Centre & Centre for Photonic Metamaterials, University of Southampton, Southampton SO17 1BJ, UK;

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multilayers; superlattices;

机译：多层超晶格;

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1. Optical forces between coupled plasmonic nanoparticles near metal surfaces and negative index material waveguides [J] . C. Van Vlack, Peijun Yao, S. Hughes Physical review . 2011,第24期

机译：金属表面附近的耦合等离激元纳米粒子与负折射率材料波导之间的光学力
2. Surface-plasmon-coupled optical force sensors based on metal–insulator–metal metamaterials with movable air gap [J] . Taiyu Okatani, Shota Sekiguchi, Kazuhiro Hane, Scientific reports. . 2020,第1期

机译：基于金属绝缘体 - 金属超材料的表面等离子体耦合光力传感器，可移动气隙
3. Plasmonic or dielectric dimers: A generic way to control the reversal of near field optical binding force [J] . Rivy Hamim Mahmud, Mahdy M. R. C., Jony Ziaur Rahman, Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2019,第期

机译：等离子体或介电二聚体：一种控制近场光学绑定力的逆转的通用方式
4. Metamaterial ‘gecko toe’: Optically-controlled adhesion to any surface [C] . Zhang, J. CLEO;Conference on Lasers and Electro-Optics . 2012

机译：超材料“壁虎脚趾”：对任何表面的光学控制附着力
5. Near-field scanning optical microscopy and spontaneous emission engineering with plasmonic metamaterials [D] . Kim, Ji-Young 2010

机译：等离子超材料的近场扫描光学显微镜和自发发射工程
6. Direct Measurement of Optical Force Induced by Near-Field Plasmonic Cavity Using Dynamic Mode AFM [O] . Dongshi Guan, Zhi Hong Hang, Zsolt Marcet, -1

机译：动态模式原子力显微镜直接测量近场等离子体腔引起的光学力
7. Metamaterial 'Gecko Toe': Optically-controlled adhesion to any surface [O] . Zhang J., Yasuda H., MacDonald K.F., 2012

机译：超材料'Gecko Toe'：光学控制粘附到任何表面
8. Near-Field Scanning Optical Microscope/Atomic Force Microscope with Broad-Band Source for Study of Optical Metamaterials and Nanocircuits. [R] . Engheta, N., Drndic, M., Edwards, B. 2011

机译：具有宽带光源的近场扫描光学显微镜/原子力显微镜，用于研究光学材料和纳米电路。

Optical gecko toe: Optically controlled attractive near-field forces between plasmonic metamaterials and dielectric or metal surfaces

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