Design of a compact wide-field-of-view infrared imager based on wavefront coding

doi:10.1088/1674-1056/adf03f

中国物理B ›› 2026, Vol. 35 ›› Issue (2): 24202-024202.doi: 10.1088/1674-1056/adf03f

Design of a compact wide-field-of-view infrared imager based on wavefront coding

Chonghui Zhu(朱崇辉), Jiaqian Yu(于佳倩)^†, and Jingang Cui(崔金刚)

Northeast Forestry University, Faculty of Science, Harbin 150040, China

收稿日期:2025-05-08 修回日期:2025-07-02 接受日期:2025-07-16 发布日期:2026-02-05
通讯作者: Jiaqian Yu E-mail:yujiaqian1992@126.com

Design of a compact wide-field-of-view infrared imager based on wavefront coding

Chonghui Zhu(朱崇辉), Jiaqian Yu(于佳倩)^†, and Jingang Cui(崔金刚)

Northeast Forestry University, Faculty of Science, Harbin 150040, China

Received:2025-05-08 Revised:2025-07-02 Accepted:2025-07-16 Published:2026-02-05

摘要/Abstract

摘要： Compact size, high brightness, and wide field of view (FOV) are key requirements for long-wave infrared imagers used in military surveillance or night navigation. However, to meet the imaging requirements of high resolution and wide FOV, infrared optical systems often adopt complex optical lens groups, which will increase the size and weight of the optical system. In this paper, a strategy based on wavefront coding (WFC) is proposed to design a compact wide-FOV infrared imager. A cubic phase mask is inserted into the pupil plane of the infrared imager to correct the aberration. The simulated results show that, the WFC infrared imager has good imaging quality in a wide FOV of ±16°. In addition, the WFC infrared imager achieves compactness with its 40 mm×40 mm×40 mm size. A fast focal ratio of 1 combined with an entrance pupil diameter of 25 mm ensures brightness. This work is of significance for designing a compact wide-FOV infrared imager.

关键词: optical design, infrared imager, wavefront coding

Abstract: Compact size, high brightness, and wide field of view (FOV) are key requirements for long-wave infrared imagers used in military surveillance or night navigation. However, to meet the imaging requirements of high resolution and wide FOV, infrared optical systems often adopt complex optical lens groups, which will increase the size and weight of the optical system. In this paper, a strategy based on wavefront coding (WFC) is proposed to design a compact wide-FOV infrared imager. A cubic phase mask is inserted into the pupil plane of the infrared imager to correct the aberration. The simulated results show that, the WFC infrared imager has good imaging quality in a wide FOV of ±16°. In addition, the WFC infrared imager achieves compactness with its 40 mm×40 mm×40 mm size. A fast focal ratio of 1 combined with an entrance pupil diameter of 25 mm ensures brightness. This work is of significance for designing a compact wide-FOV infrared imager.

Key words: optical design, infrared imager, wavefront coding

中图分类号: (Imaging and optical processing)

42.30.-d

42.15.Fr (Aberrations) 95.85.Hp (Infrared (3-10 μm)) 42.30.Va (Image forming and processing)

Chonghui Zhu(朱崇辉), Jiaqian Yu(于佳倩), and Jingang Cui(崔金刚). Design of a compact wide-field-of-view infrared imager based on wavefront coding[J]. 中国物理B, 2026, 35(2): 24202-024202.

Chonghui Zhu(朱崇辉), Jiaqian Yu(于佳倩), and Jingang Cui(崔金刚). Design of a compact wide-field-of-view infrared imager based on wavefront coding[J]. Chin. Phys. B, 2026, 35(2): 24202-024202.

[1]	Lina Zhu(朱丽娜), Fei Li(李飞), Zeyu Huang(黄泽宇), and Tingyu Zhao(赵廷玉). An apodized cubic phase mask used in a wavefront coding system to extend the depth of field[J]. 中国物理B, 2022, 31(5): 54217-054217.
[2]	刘鑫, 常军, 冯帅, 穆郁, 王霞, 徐兆鹏. Optical design of common-aperture multispectral and polarization optical imaging system with wide field of view[J]. 中国物理B, 2019, 28(8): 84201-084201.
[3]	宋大林, 常军, 赵一菲, 张泽霞. Anti-detection technology of cat eye target based on decentered field lens[J]. 中国物理B, 2018, 27(9): 94220-094220.
[4]	虞林瑶, 洪永丰, 程志峰, 张保. Aberration correction of conformal dome based on rotated cylindrical lenses for ultra-wide field of regard[J]. 中国物理B, 2018, 27(1): 14202-014202.
[5]	雷泽民, 孙晓艳, 吕凤年, 张臻, 卢兴强. Application of optical diffraction method in designing phase plates[J]. 中国物理B, 2016, 25(11): 114201-114201.
[6]	孙晓艳, 卢兴强, 吕凤年, 张国文, 张臻, 尹宪华, 范滇元. General design basis for a final optics assembly to decrease filamentary damage[J]. 中国物理B, 2015, 24(5): 54209-054209.
[7]	赵廷玉, 刘钦晓, 余飞鸿. Optical transfer function analysis of circular-pupil wavefront coding systems with separable phase masks[J]. 中国物理B, 2012, 21(6): 64203-064203.
[8]	芦佳宁, 余杰, 童玉珍, 张国义. Optical design of adjustable light emitting diode for different lighting requirements[J]. Chin. Phys. B, 2012, 21(12): 127105-127105.
[9]	李岩, 李林, 黄一帆, 杜保林. Correcting dynamic residual aberrations of conformal optical systems using AO technology[J]. 中国物理B, 2009, 18(7): 2769-2773.
[10]	姜震宇, 李林, 黄一帆. Study on the design and Zernike aberrations of a segmented mirror telescope[J]. 中国物理B, 2009, 18(7): 2774-2778.
[11]	冯煜东, 王志民, 马亚莉, 张福甲. Thin film design for advanced thermochromic smart radiator devices[J]. 中国物理B, 2007, 16(6): 1704-1709.

Design of a compact wide-field-of-view infrared imager based on wavefront coding

Design of a compact wide-field-of-view infrared imager based on wavefront coding

PDF (PC)

赞

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 11

Metrics

本文评价

推荐阅读 0