Realizing depth measurement and edge detection based on a single metasurface

Siwen Yang; Qunshuo Wei; Ruizhe Zhao; Xin Li; Xue Zhang; Yao Li; Junjie Li; Xiaoli Jing; Xiaowei Li; Yongtian Wang; Lingling Huang

doi:10.1515/nanoph-2023-0308

Realizing depth measurement and edge detection based on a single metasurface

Siwen Yang, Qunshuo Wei, Ruizhe Zhao, Xin Li, Xue Zhang, Yao Li, Junjie Li, Xiaoli Jing, Xiaowei Li, Yongtian Wang, Lingling Huang^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

How to simultaneously obtain the depth, edge, and other light information of the scene to accurately perceive the physical world is an important issue for imaging systems. However, such tasks usually require bulky optical components and active illumination methods. Here, we design and experimentally validate a single geometric metasurface that can achieve depth measurement or edge detection under incoherent or coherent light respectively. Double helix point source function is utilized, and three verification experiments are carried out, including double-helix beam calibration, 2D object and 3D object detection, respectively. Additionally, two-dimensional edge detection can also be achieved. This compact imaging system can enable new applications in various fields, from machine vision to microscopy.

Original language	English
Pages (from-to)	3385-3393
Number of pages	9
Journal	Nanophotonics
Volume	12
Issue number	16
DOIs	https://doi.org/10.1515/nanoph-2023-0308
Publication status	Published - 1 Aug 2023

Keywords

depth measurement
double-helix beam
edge detection
metasurface

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10.1515/nanoph-2023-0308

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title = "Realizing depth measurement and edge detection based on a single metasurface",

abstract = "How to simultaneously obtain the depth, edge, and other light information of the scene to accurately perceive the physical world is an important issue for imaging systems. However, such tasks usually require bulky optical components and active illumination methods. Here, we design and experimentally validate a single geometric metasurface that can achieve depth measurement or edge detection under incoherent or coherent light respectively. Double helix point source function is utilized, and three verification experiments are carried out, including double-helix beam calibration, 2D object and 3D object detection, respectively. Additionally, two-dimensional edge detection can also be achieved. This compact imaging system can enable new applications in various fields, from machine vision to microscopy.",

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T1 - Realizing depth measurement and edge detection based on a single metasurface

AU - Yang, Siwen

AU - Wei, Qunshuo

AU - Zhao, Ruizhe

AU - Li, Xin

AU - Zhang, Xue

AU - Li, Yao

AU - Li, Junjie

AU - Jing, Xiaoli

AU - Li, Xiaowei

AU - Wang, Yongtian

AU - Huang, Lingling

PY - 2023/8/1

Y1 - 2023/8/1

N2 - How to simultaneously obtain the depth, edge, and other light information of the scene to accurately perceive the physical world is an important issue for imaging systems. However, such tasks usually require bulky optical components and active illumination methods. Here, we design and experimentally validate a single geometric metasurface that can achieve depth measurement or edge detection under incoherent or coherent light respectively. Double helix point source function is utilized, and three verification experiments are carried out, including double-helix beam calibration, 2D object and 3D object detection, respectively. Additionally, two-dimensional edge detection can also be achieved. This compact imaging system can enable new applications in various fields, from machine vision to microscopy.

AB - How to simultaneously obtain the depth, edge, and other light information of the scene to accurately perceive the physical world is an important issue for imaging systems. However, such tasks usually require bulky optical components and active illumination methods. Here, we design and experimentally validate a single geometric metasurface that can achieve depth measurement or edge detection under incoherent or coherent light respectively. Double helix point source function is utilized, and three verification experiments are carried out, including double-helix beam calibration, 2D object and 3D object detection, respectively. Additionally, two-dimensional edge detection can also be achieved. This compact imaging system can enable new applications in various fields, from machine vision to microscopy.

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KW - double-helix beam

KW - edge detection

KW - metasurface

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Realizing depth measurement and edge detection based on a single metasurface

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