Design of a 3.7~4.8 μm Catadioptric Secondary Imaging MWIR Optical Sy<i>s</i>tem

LI Zhuo; YE Zongmin; SUN Baojie; LIU Wenpeng

Volume 43 Issue 12

Dec. 2021

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Infrared Technology > 2021 > 43(12): 1193-1196.

LI Zhuo, YE Zongmin, SUN Baojie, LIU Wenpeng. Design of a 3.7~4.8 μm Catadioptric Secondary Imaging MWIR Optical System[J]. Infrared Technology , 2021, 43(12): 1193-1196.

Citation:

LI Zhuo, YE Zongmin, SUN Baojie, LIU Wenpeng. Design of a 3.7~4.8 μm Catadioptric Secondary Imaging MWIR Optical System[J]. Infrared Technology , 2021, 43(12): 1193-1196.

Citation:

LI Zhuo, YE Zongmin, SUN Baojie, LIU Wenpeng. Design of a 3.7~4.8 μm Catadioptric Secondary Imaging MWIR Optical System[J]. Infrared Technology , 2021, 43(12): 1193-1196.

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Design of a 3.7~4.8 μm Catadioptric Secondary Imaging MWIR Optical System

PLA Unit 91404, Qinhuangdao 066000, China

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Received Date: April 19, 2021
Revised Date: June 23, 2021

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Abstract

Abstract

The system is based on an RC structure to measure the optical characteristics of small targets and space targets. The initial structure of the reflective optical system was established by calculating the curve equation and the Gaussian formula. The re-imaging relay lens group was introduced into the structure of the system to realize the optimal design, which solves the problem of 100% cold diaphragm efficiency. The imaging quality was evaluated using Zemax, and a system with a focal length of 380 mm and a diameter of 200 mm is not only compact and simple, it also meets the actual measurement requirements.
- MWIR,
- optical system design,
- reflective optical system,
- re-imaging

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