材料科学
极化(电化学)
多路复用
光电子学
光学
硅
平面的
波前
光子学
电介质
物理
电信
计算机科学
计算机图形学(图像)
物理化学
化学
作者
Wei Zhu,Yuancheng Fan,Ruisheng Yang,Guangzhou Geng,Quanhong Fu,Changzhi Gu,Junjie Li,Fuli Zhang
标识
DOI:10.1002/adfm.202200013
摘要
Abstract All‐dielectric metasurfaces with low‐loss planar photonic subwavelength elements can be freely designed to realize high‐efficiency light wave manipulation. It is highly desirable to achieve multifunctionalities with a single metasurface to further enrich the manipulation of light with metasurfaces for diverse applications. This article demonstrates multifunctional silicon‐based metasurfaces capable of generating versatile wavefronts under different polarization light incidence at visible wavelengths. The polarization‐multiplexed metasurfaces are implemented with rationally arranged anisotropic silicon nanobricks to achieve independent control of orthogonal linearly polarized light waves for multi‐channel functionalities, including polarized beam splitting, opposite charged and different ordered optical vortexes. The polarization‐multiplexed high‐quality silicon metasurfaces have great potential for applications in multi‐channel optical devices with integrated functionality.
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