同时全息显示和三维深度感知的偏振控制超表面

IF 6.5 2区物理与天体物理 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

Nanophotonics Pub Date : 2025-01-16 DOI:10.1515/nanoph-2024-0509

Shuhan Guo, Yifan Shao, Junjie Zhan, Jiaqi Yu, Yubo Wang, Pankaj K. Choudhury, Hugo E. Hernandez-Figueroa, Yungui Ma

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引用次数: 0

摘要

同时光学显示和深度感知在许多智能技术中至关重要，但通常是由单独的笨重系统实现的，不利于集成。超表面是一种在深亚波长尺度上具有强光-物质相互作用能力的人工二维光学表面，为制造具有各种复杂功能的高度集成光学器件提供了一种有前途的方法。在这项工作中，我们报告了一种偏振复用的超表面，它可以在全息显示和达曼光栅之间切换。通过调整入射偏振，超表面可以在菲涅耳区域显示高质量的全息图像，或者投射出几乎覆盖整个180°× 180°透射空间的均匀斑云。对于后者，进行了投影和三维（3D）重建实验，以说明在检索三维复杂空间信息方面的潜力。目前的研究结果为制造轻量级和高度集成的综合成像系统提供了一种突出的方法，特别是对尖端智能视觉技术至关重要。

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Polarization-controlled metasurface for simultaneous holographic display and three-dimensional depth perception

Simultaneous optical display and depth perception are crucial in many intelligent technologies but are usually realized by separate bulky systems unfriendly to integration. Metasurfaces, artificial two-dimensional optical surfaces with strong light–matter interaction capabilities at deep subwavelength scales, offer a promising approach for manufacturing highly integrated optical devices performing various complex functions. In this work, we report a polarization-multiplexed metasurface that can functionally switch between holographic display and Dammann gratings. By tailoring the incidence polarization, the metasurface can display high-quality holographic images in the Fresnel region or project a uniform spot cloud nearly covering the entire 180° × 180° transmissive space. For the latter, a projection and three-dimensional (3D) reconstruction experiment is conducted to elaborate the potential in retrieving 3D complex spatial information. The current results provide a prominent way to manufacture lightweight and highly-integrated comprehensive imaging systems especially vital for cutting-edge intelligent visual technologies.

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来源期刊

Nanophotonics NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY

CiteScore

13.50

自引率

6.70%

发文量

358

审稿时长

7 weeks

期刊介绍： Nanophotonics, published in collaboration with Sciencewise, is a prestigious journal that showcases recent international research results, notable advancements in the field, and innovative applications. It is regarded as one of the leading publications in the realm of nanophotonics and encompasses a range of article types including research articles, selectively invited reviews, letters, and perspectives. The journal specifically delves into the study of photon interaction with nano-structures, such as carbon nano-tubes, nano metal particles, nano crystals, semiconductor nano dots, photonic crystals, tissue, and DNA. It offers comprehensive coverage of the most up-to-date discoveries, making it an essential resource for physicists, engineers, and material scientists.