硫系玻璃在民用红外车载成像系统中的应用

姜波; 吴越豪; 戴世勋; 张巍; 张培晴; 王训四; 沈祥; 聂秋华

红外与激光工程, 2015, 44 (6): 1739, 网络出版: 2016-01-26

硫系玻璃在民用红外车载成像系统中的应用

Application of chalcogenide glasses in designing vehicle-mounted infrared imaging lens for civilian applications

论文大纲

姜波吴越豪戴世勋张巍张培晴王训四沈祥聂秋华

作者单位

宁波大学红外材料及器件实验室，浙江宁波 315211

车载镜头红外系统无热化设计光学被动式 vehicle-mounted lens infrared system athermalized design optical passive

摘要

针对324×256非制冷探测器，设计了一个工作波段为8~12 μm，有效焦距为9 mm，F数为1.3，视场角为33.26°×26.28°的红外车载镜头。镜头采用了硫系玻璃材料Ge28Sb12Se60制备的两片镜片，结合常规红外材料锗以及硫化锌材料制备其他两片镜片，通过合理分配各个镜片的光焦度达到系统整体无热化设计的效果。利用硫系玻璃易于精密模压制备非球面的特点，仅在一片硫系玻璃镜片上设计了一处非球面。设计结果表明该系统在-40~60 ℃的温度范围内具有良好的消色差/热差性能，且调制传递函数(MTF)接近衍射极限。

Abstract

A vehicle-mounted infrared lens was designed based on 324×256 uncooled detector. The operating wavelength range of the lens is from 8 μm to 12 μm, the effective focal length(EFL) is 9 mm, the F number is 1.3, and the field of view(FOV) is 33.26°×26.28°. The proposed lens was designed as a combination of two singlet lenses fabricated with the novel chalcogenide glass material Ge28Sb12Se60 and two singlet lenses fabricated with conventional infrared materials Germanium(Ge) and Zinc Sulfide(ZnS). Utilizing the differences in the thermal-optical properties of the utilized infrared materials, an athermalized optical design was realized by carefully adjusting the optical powers of the four singlets. Moreover, taking advantage of the superior property of chalcogenide glasses for molding preparation of aspherical surfaces, the imaging quality of the proposed lens could be further improved by introducing one aspherical surface on one of the chalcogenide glass singlets. The imaging quality of the proposed lens is close to the diffraction-limited system for the designed spectral range and for the temperature range from -40 to 60 ℃.

参考文献

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姜波, 吴越豪, 戴世勋, 张巍, 张培晴, 王训四, 沈祥, 聂秋华. 硫系玻璃在民用红外车载成像系统中的应用[J]. 红外与激光工程, 2015, 44(6): 1739. Jiang Bo, Wu Yuehao, Dai Shixun, Zhang Wei, Zhang Peiqing, Wang Xunsi, Shen Xiang, Nie Qiuhua. Application of chalcogenide glasses in designing vehicle-mounted infrared imaging lens for civilian applications[J]. Infrared and Laser Engineering, 2015, 44(6): 1739.

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