基于拓扑绝缘体材料的纳米全息图。

Nanometric holograms based on a topological insulator material.

机构信息

Laboratory of Artificial-Intelligence Nanophotonics and CUDOS (Centre for Ultrahigh bandwidth Devices for Optical Systems), School of Science, RMIT University, Melbourne, Victoria 3001, Australia.

Beijing Engineering Research Centre for Mixed Reality and Advanced Display, School of Optoelectronics, Beijing Institute of Technology, Beijing 100081, China.

出版信息

Nat Commun. 2017 May 18;8:15354. doi: 10.1038/ncomms15354.

DOI:10.1038/ncomms15354

PMID:28516906

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5454374/

Abstract

Holography has extremely extensive applications in conventional optical instruments spanning optical microscopy and imaging, three-dimensional displays and metrology. To integrate holography with modern low-dimensional electronic devices, holograms need to be thinned to a nanometric scale. However, to keep a pronounced phase shift modulation, the thickness of holograms has been generally limited to the optical wavelength scale, which hinders their integration with ultrathin electronic devices. Here, we break this limit and achieve 60 nm holograms using a topological insulator material. We discover that nanometric topological insulator thin films act as an intrinsic optical resonant cavity due to the unequal refractive indices in their metallic surfaces and bulk. The resonant cavity leads to enhancement of phase shifts and thus the holographic imaging. Our work paves a way towards integrating holography with flat electronic devices for optical imaging, data storage and information security.

摘要

全息术在传统光学仪器中有着极其广泛的应用，涵盖了光学显微镜和成像、三维显示和计量学。为了将全息术与现代低维电子设备集成，全息图需要薄化到纳米尺度。然而，为了保持明显的相位调制，全息图的厚度通常被限制在光学波长尺度，这阻碍了它们与超薄电子设备的集成。在这里，我们使用拓扑绝缘体材料打破了这一限制，实现了 60nm 厚的全息图。我们发现，由于其金属表面和体相的折射率不同，纳米尺度的拓扑绝缘体薄膜作为一个固有光学共振腔。共振腔导致相位的增强，从而实现全息成像。我们的工作为将全息术与平面电子设备集成用于光学成像、数据存储和信息安全铺平了道路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1ad4/5454374/fab643ecfa98/ncomms15354-f1.jpg

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基于拓扑绝缘体材料的纳米全息图。

Nanometric holograms based on a topological insulator material.

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