Design of a zoom four-mirror optical system

Jianfa Chen; Helong Wang; Xin Liu; Zhifeng Pan

doi:10.3788/CJL201239.s216001

Design of a zoom four-mirror optical system

Jianfa Chen^*, Helong Wang, Xin Liu, Zhifeng Pan

^*Corresponding author for this work

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

Abstract

When the infrared search and track (IRST) system is at work, the wide field of view (short focus) is used to achieve the target of wide-area search, and the narrow field of view (telephoto) to achieve the target of location and tracking. Compared with the refractive zoom system, the zoom four-mirror system has compact structure and performs very well at thermalization and achromatism. It can meet the requirements of aerial vehicle IRST temperature adaptability, smaller size and lighter weight. A reflective zoom system design method based on the best least squares method and Seidel aberration is described. Instance is designed to prove the correctness and feasibility of this method. In the process of continuous zoom, the modulation transfer function of this optical system is close to the diffraction limit.

Original language	English
Article number	s216001
Journal	Zhongguo Jiguang/Chinese Journal of Lasers
Volume	39
Issue number	SUPPL.2
DOIs	https://doi.org/10.3788/CJL201239.s216001
Publication status	Published - Dec 2012
Externally published	Yes

Keywords

Best least squares method
Optical design
Reflective zoom system
Seidel aberration

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10.3788/CJL201239.s216001

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abstract = "When the infrared search and track (IRST) system is at work, the wide field of view (short focus) is used to achieve the target of wide-area search, and the narrow field of view (telephoto) to achieve the target of location and tracking. Compared with the refractive zoom system, the zoom four-mirror system has compact structure and performs very well at thermalization and achromatism. It can meet the requirements of aerial vehicle IRST temperature adaptability, smaller size and lighter weight. A reflective zoom system design method based on the best least squares method and Seidel aberration is described. Instance is designed to prove the correctness and feasibility of this method. In the process of continuous zoom, the modulation transfer function of this optical system is close to the diffraction limit.",

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T1 - Design of a zoom four-mirror optical system

AU - Chen, Jianfa

AU - Wang, Helong

AU - Liu, Xin

AU - Pan, Zhifeng

PY - 2012/12

Y1 - 2012/12

N2 - When the infrared search and track (IRST) system is at work, the wide field of view (short focus) is used to achieve the target of wide-area search, and the narrow field of view (telephoto) to achieve the target of location and tracking. Compared with the refractive zoom system, the zoom four-mirror system has compact structure and performs very well at thermalization and achromatism. It can meet the requirements of aerial vehicle IRST temperature adaptability, smaller size and lighter weight. A reflective zoom system design method based on the best least squares method and Seidel aberration is described. Instance is designed to prove the correctness and feasibility of this method. In the process of continuous zoom, the modulation transfer function of this optical system is close to the diffraction limit.

AB - When the infrared search and track (IRST) system is at work, the wide field of view (short focus) is used to achieve the target of wide-area search, and the narrow field of view (telephoto) to achieve the target of location and tracking. Compared with the refractive zoom system, the zoom four-mirror system has compact structure and performs very well at thermalization and achromatism. It can meet the requirements of aerial vehicle IRST temperature adaptability, smaller size and lighter weight. A reflective zoom system design method based on the best least squares method and Seidel aberration is described. Instance is designed to prove the correctness and feasibility of this method. In the process of continuous zoom, the modulation transfer function of this optical system is close to the diffraction limit.

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KW - Seidel aberration

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Design of a zoom four-mirror optical system

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