End-to-end optimization for a wide-field-of-view metalens with an aperture stop

Ziming Ren; Jia Zhang; Mojtaba Moghaddasi; Chenjie Xiong; Jianzhou Huang; Bo Meng; Bin Hu

doi:10.1364/JOSAB.557288

End-to-end optimization for a wide-field-of-view metalens with an aperture stop

Ziming Ren, Jia Zhang, Mojtaba Moghaddasi, Chenjie Xiong, Jianzhou Huang, Bo Meng, Bin Hu^*

^*Corresponding author for this work

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

Abstract

Metalenses have great application potential to realize ultra-compact wide-field-of-view (WFOV) optics for surveillance cameras, industrial vision, and medical imaging. Due to the relatively low fabrication requirement, metalenses with an aperture stop for WFOV have attracted much interest recently. However, most designs for this structure rely on commercial design software or exclude the optimization of the aperture size. This work proposes a design framework for a metalens with an aperture stop based on an end-to-end optimization for WFOV imaging, which achieves joint optimization of aperture diameter, substrate thickness, and metalens phase distribution. Using this framework, a metalens with an aperture that achieves a FOV of 160^◦ in the mid-infrared region is designed and demonstrated by both theoretical calculation and simulation. This work is expected to provide alternative design options for miniaturized WFOV imaging optical systems.

Original language	English
Pages (from-to)	1146-1153
Number of pages	8
Journal	Journal of the Optical Society of America B: Optical Physics
Volume	42
Issue number	5
DOIs	https://doi.org/10.1364/JOSAB.557288
Publication status	Published - 1 May 2025
Externally published	Yes

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title = "End-to-end optimization for a wide-field-of-view metalens with an aperture stop",

abstract = "Metalenses have great application potential to realize ultra-compact wide-field-of-view (WFOV) optics for surveillance cameras, industrial vision, and medical imaging. Due to the relatively low fabrication requirement, metalenses with an aperture stop for WFOV have attracted much interest recently. However, most designs for this structure rely on commercial design software or exclude the optimization of the aperture size. This work proposes a design framework for a metalens with an aperture stop based on an end-to-end optimization for WFOV imaging, which achieves joint optimization of aperture diameter, substrate thickness, and metalens phase distribution. Using this framework, a metalens with an aperture that achieves a FOV of 160◦ in the mid-infrared region is designed and demonstrated by both theoretical calculation and simulation. This work is expected to provide alternative design options for miniaturized WFOV imaging optical systems.",

author = "Ziming Ren and Jia Zhang and Mojtaba Moghaddasi and Chenjie Xiong and Jianzhou Huang and Bo Meng and Bin Hu",

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AU - Ren, Ziming

AU - Zhang, Jia

AU - Moghaddasi, Mojtaba

AU - Xiong, Chenjie

AU - Huang, Jianzhou

AU - Meng, Bo

AU - Hu, Bin

PY - 2025/5/1

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N2 - Metalenses have great application potential to realize ultra-compact wide-field-of-view (WFOV) optics for surveillance cameras, industrial vision, and medical imaging. Due to the relatively low fabrication requirement, metalenses with an aperture stop for WFOV have attracted much interest recently. However, most designs for this structure rely on commercial design software or exclude the optimization of the aperture size. This work proposes a design framework for a metalens with an aperture stop based on an end-to-end optimization for WFOV imaging, which achieves joint optimization of aperture diameter, substrate thickness, and metalens phase distribution. Using this framework, a metalens with an aperture that achieves a FOV of 160◦ in the mid-infrared region is designed and demonstrated by both theoretical calculation and simulation. This work is expected to provide alternative design options for miniaturized WFOV imaging optical systems.

AB - Metalenses have great application potential to realize ultra-compact wide-field-of-view (WFOV) optics for surveillance cameras, industrial vision, and medical imaging. Due to the relatively low fabrication requirement, metalenses with an aperture stop for WFOV have attracted much interest recently. However, most designs for this structure rely on commercial design software or exclude the optimization of the aperture size. This work proposes a design framework for a metalens with an aperture stop based on an end-to-end optimization for WFOV imaging, which achieves joint optimization of aperture diameter, substrate thickness, and metalens phase distribution. Using this framework, a metalens with an aperture that achieves a FOV of 160◦ in the mid-infrared region is designed and demonstrated by both theoretical calculation and simulation. This work is expected to provide alternative design options for miniaturized WFOV imaging optical systems.

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End-to-end optimization for a wide-field-of-view metalens with an aperture stop

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