利用结合动态相位和几何相位的超表面生成光学涡流

Haoran Lv, Yihua Bai, J. Yao, Yuanjie Yang
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引用次数: 1

摘要

迄今为止,产生光学涡旋光束的方法已经得到了广泛的研究,从模式转换到衍射光学元件。然而,体积大的传统方法不适合纳米光子系统,超表面已经成为产生光学涡流的另一种选择。本文提出了一种结合动态相和几何相的超曲面。在圆偏振光入射下,单个超表面可以同时产生具有不同拓扑电荷的光学涡流。动态相位使得涡旋光的拓扑电荷随距离的变化而变化。不同的超表面焦距可以控制聚焦涡的强度分布和相对距离。该方法提供了一种新的设计,可以在单个设备中产生不同的涡流,在粒子捕获和集成光学系统中具有潜在的应用前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Generation of optical vortices using the metasurface combining dynamic and geometric phases
Hitherto, methods to generate optical vortex beams have been widely researched, ranging from mode conversion to diffractive optical elements. However, bulky-sized traditional methods are unsuitable for nanophotonic systems, metasurface has become an alternative option for generating optical vortices. In this paper, a metasurface combining dynamic and geometric phases is proposed. Under the incidence of circular polarized light, optical vortices with different topological charges can be generated simultaneously by a single metasurface. The dynamic phase makes the topological charge of the vortex light vary with distance. The intensity distribution and relative distance of the focused vortices can be manipulated with different focal length of the metasurface. This method provides a new design to generate different vortices in a single device and has potential applications in particle capture and integrated optical systems.
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