Controlling the plasmonic orbital angular momentum by combining the geometric and dynamic phases

Tan Qilong; Guo Qinghua; Liu HongchaoHuang GuangZhang Shuang

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Controlling the plasmonic orbital angular momentum by combining the geometric and dynamic phases

机译：控制电浆轨道角动量通过结合几何和动态阶段

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The tunable orbit angular momentum (OAM) of surface plasmon polaritons (SPPs) is theoretically studied with appropriately designed metasurfaces. By controlling both the orientation angle and the spatial position of a nano aperture array on an ultrathin gold film, the field distributions of the surface waves can be engineered to contain both spin dependent and independent OAM components. Simultaneous control over the geometric phase and the optical path difference induced phase (dynamic phase) provides extra degrees of freedom for manipulating the OAM of SPPs. We show that an arbitrary combination of OAM numbers can be realized for the SPPs excited by incident light of different circular polarizations. Our results provide powerful control over the OAM of SPPs, which will have potential applications in optical trapping, imaging, communications and even quantum information processing.

机译：可调轨道角动量(OAM)表面等离子体极化声子(许可证)从理论上研究了适当设计metasurfaces。角度和空间位置的纳米孔数组超薄金膜,分布的表面波工程包含自旋依赖和独立的OAM组件。在几何相位和光学路径不同诱导阶段(动态阶段)提供额外的自由度操纵OAM的许可证。OAM数字许可证兴奋可以实现入射光的不同的循环偏振。控制OAM的许可证潜在的应用在光学捕获,甚至成像、通信和量子信息处理。

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来源
《Nanoscale》 |2017年第15期|4944-4949|共6页
作者
Tan Qilong; Guo Qinghua; Liu HongchaoHuang GuangZhang Shuang;
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作者单位

South China Normal Univ, Guangzhou Key Lab Special Fiber Photon Devices &, Guangzhou 510006, Guangdong, Peoples R China;

Univ Birmingham, Sch Phys & Astron, Birmingham B15 2TT, Edgbaston, England;

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正文语种英语
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关键词
Degree of freedom; surface waves; Geometric phasePhaseincident lightoptical pathsInformation ProcessingORIENTATION ANGLEfield distributionPLASMON SURFACE POLARITONsimultaneous controlOptical Tweezers;

机译：自由度;表面波;几何phasePhaseincident lightoptical pathsInformationProcessingORIENTATION ANGLEfielddistributionPLASMON表面POLARITONsimultaneouscontrolOptical镊子;

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Controlling the plasmonic orbital angular momentum by combining the geometric and dynamic phases

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