All-optical athermalization of infrared imaging systems using thermally dependent binary phase masks

Elmalem Shay; Marom Emanuel

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All-optical athermalization of infrared imaging systems using thermally dependent binary phase masks

机译：使用与温度相关的二进制相位掩模的红外成像系统的全光学无热化

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Lenses used in many infrared (IR) imaging systems are temperature sensitive. One of the most popular IR optical materials for lens fabrication is germanium; nevertheless, it exhibits a strong temperature dependent refractive index, causing significant thermal focal shift which in turn results in image blur. An all-optical solution for IR lens athermalization with no moving parts based on a thermally dependent binary phase mask is hereby proposed and analyzed. It allows high quality imaging to be obtained for a wide range of temperature variations, with minimal performance degradation at nominal temperature conditions.

机译：许多红外（IR）成像系统中使用的镜头对温度敏感。锗最流行的用于镜头制造的红外光学材料之一是锗。但是，它具有很强的温度依赖性折射率，会引起明显的热焦点偏移，进而导致图像模糊。因此，提出并分析了基于热相关的二进制相位掩模的无运动部件的红外透镜无热化的全光学解决方案。它允许在宽范围的温度变化下获得高质量的成像，并且在标称温度条件下性能下降最小。

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《Journal of optics》 |2016年第6期|共10页
作者
Elmalem Shay; Marom Emanuel;
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原文格式 PDF
正文语种 eng
中图分类光学;
关键词
infrared; athermalization; phase mask; depth of field; imaging;

机译：红外;无热;相位掩模;景深;成像;

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专利

1. All-optical athermalization of infrared imaging systems using thermally dependent binary phase masks [J] . Elmalem Shay, Marom Emanuel Journal of optics . 2016,第6期

机译：使用与温度相关的二进制相位掩模的红外成像系统的全光学无热化
2. 110°C range athermalization of wavefront coding infrared imaging systems [J] . Bin Feng, Zelin Shi, Zheng Chang, Infrared physics and technology . 2017,第期

机译：110 波前编码红外成像系统的°C范围内
3. Software lens compensation applied to athermalization of infrared imaging systems [J] . Sung HY, Yang SS, Chang H Optical review . 2009,第3期

机译：软件镜头补偿应用于红外成像系统的非热化
4. Phase Mask for Infrared Lens Athermalization - Design Considerations [C] . Shay Elmalem, Emanuel Marom Advanced optics for defense applications: UV therough lwir . 2016

机译：红外透镜无热化的相位掩模-设计注意事项
5. An objective regional cloud mask algorithm for GOES infrared imager with regime-dependent thresholds for direct radiance assimilation [D] . Da, Cheng. 2014

机译：GOES红外成像仪的客观区域云掩模算法，具有与区域相关的直接辐射同化阈值
6. Facial Skin Temperature and Discomfort When Wearing Protective Face Masks: Thermal Infrared Imaging Evaluation and Hands Moving the Mask [O] . Antonio Scarano, Francesco Inchingolo, Felice Lorusso 2020

机译：戴防护口罩时面部皮肤的温度和不适：热红外成像评估和动手移动口罩
7. 110 °C range athermalization of wavefront coding infrared imaging systems [O] . Feng B(冯斌), Shi ZL(史泽林), Chang Z(常铮), 2017

机译：波前编码红外成像系统的110°C范围非热化
8. Image Formation in Optical Systems That Utilize Amplitude and Phase Masks in the Fourier Image Plane [R] . Kelsey, J. F. 1965

机译：利用傅立叶图像平面中的幅度和相位掩模的光学系统中的图像形成

All-optical athermalization of infrared imaging systems using thermally dependent binary phase masks

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