可见光范围内环境相关全息超表面

Jianling Xiao, Libin Yan, T. Plaskocinski, Mohammad Biabanifard, Saydulla Persheyev, Meisam Askari, Andrea Di Falco
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引用次数: 0

摘要

超表面可以通过精确设计几何参数和二维元原子的排列来操纵光。每个像素可以单独调谐以控制空间上反射或透射光的振幅、相位和偏振[1]。全息超表面是实现功能复用的实用工具,因为不同的图像可以使用不同的光属性(如波长、角动量、振幅和偏振)在单个超表面中进行编码[2]。这些图像还可以根据机械拉伸、施加不同电压、入射角、化学反应和周围介质进行重构或切换[3]。多路复用和可调性的优势使全息超表面成为加密、显示和传感应用的优秀候选者[4]。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Environment-Dependent Holographic Metasurfaces in the Visible Range
Metasurfaces can manipulate light in desired ways by accurate design of the geometrical parameters and arrangement of two-dimensional meta-atoms. Each pixel can be individually tuned to control spatially the amplitude, phase, and polarization of reflected or transmitted light [1]. Holographic metasurfaces are practical tools to achieve functional multiplexing since different images can be encoded in a single metasurface using different properties of the light, such as wavelength, angular momentum, amplitude, and polarization [2]. These images can also be reconstructed or switchable depending on mechanical stretching, applying different voltage, incident angle, chemical reaction, and surrounding medium [3]. The advantage of multiplexing and tunability makes holographic metasurface an excellent candidate for application in encryption, display and sensing [4].
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