三反射主动变焦系统设计

沈本兰; 常军; 王希; 牛亚军; 冯树龙

doi:10.7498/aps.63.144201

摘要

空间光学系统在对深空探测、监视、威胁侦测和对地高分辨率侦查等应用中，不仅需要能同时获得高分辨率和宽视场范围的变焦系统，还需要体积小、重量轻、低能耗及快速调焦的系统，传统机械变焦系统因需要复杂精确的机械运动控制而存在诸多问题. 因而，基于主动光学理论，将主动光学元件应用到成像系统中，提出了通过某个或某几个光学元件的曲率半径变化实现系统焦距变化的理论. 根据初级像差理论和系统的外形尺寸，研究了系统主动变焦原理，确定了初级像差方程组的约束条件，求解共轴主动变焦系统的初始结构参数，借助ZEMAX软件进行优化设计，设计了一个由静止的主镜、曲率半径作为变量的次镜和三镜、无光焦度的平面镜组成的三反射主动变焦系统. 由于该共轴三反射主动变焦系统存在两次遮光，会影响系统像面能量的接收，因此，指出对共轴系统进行无遮拦离轴优化设计的必要性，讨论了离轴系统设计理论，并设计了离轴三反射主动变焦系统.

关键词:

Abstract

In the applications of deep-space exploration, surveillance, threat detection and high resolution investigation on the ground, space optical systems need not only both the high resolution and width of view zoom system, but also the small size, light weight, low power and fast focusing system. As the traditional mechanical zoom system requires complex and precision mechanical motion, many problems are usually caused. Thus, based on active optics, the active optical elements are applied to the imaging system, and it is proposed that the optical element curvature radius should be variable to realize the transition among the different focal lengths. According to third-order aberration theory and dimension calculation of optical system requirement, the active zoom theory is studied, and the third-order aberration equation constraints are confirmed. Then the initial construction parameters of coaxial active zoom system are achieved by solving the equations. The system is optimized with using the optical design software ZEMAX. The system consists of the static primary mirror, the secondary and third mirror with the variable curvature radius, and the plane mirror with zero-power. As two times the light is obscured by the elements in the coaxial active zoom system, the amount of the energy on the image plane will be affected. For this reason, it is proposed that the unobstructed off-axis optimization should be necessary to the coaxial system. The off-axis system design theory is studied and the off-axis active zoom system is designed.

Keywords:

作者及机构信息

1.
北京理工大学光电学院, 北京 100081;

2.
中国科学院长春光学精密机械与物理研究所, 长春 130022

基金项目: 教育部新世纪优秀人才支持计划（批准号：2012cx01017）和北京理工大学科技创新计划重大项目培育专项计划（批准号：22050205）资助的课题.

Authors and contacts

1.
School of Opto-Electronics, Beijing Institute of Technology, Beijing 100081, China;

2.
Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences, Changchun 130022, China

Funds: Project supported by the Program for New Century Excellent Talents in University of Ministry of Education of China (Grant No. 2012cx01017), the Science and Technology Major Project of the Ministry of Science and Technology, Beijing Institute of Technology, China (Grant No. 22050205).

参考文献

[1]	Restaino, Wick D V, Martinez T, Payne D M, Gilbreath G C 2004 Proceedings of SPIE Bellingham, WA, October 20, 2004 p5491
[2]
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施引文献

[1]	Restaino, Wick D V, Martinez T, Payne D M, Gilbreath G C 2004 Proceedings of SPIE Bellingham, WA, October 20, 2004 p5491
[2]
[3]	Dong W H, Xie Y J, Li E L 2010 Appl. Opt. 31 893 (in Chinese) [董伟辉, 谢永军, 李恩玲 2010 应用光学 31 893]
[4]	Zhang Y 2012 Ph. D. Dissertation (Changchun: Chang- chun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences) (in Chinese) [张鹰 2012 博士学位论文 (长春: 中国科学院长春光学精密机械与物理研究所)]
[5]
[6]
[7]	Jungwirth M E L, Wick D V, Dereniak E L 2012 Opt. Eng. 51 083001
[8]
[9]	Wick D V, Martinez T 2004 Opt. Eng. 43 8
[10]	Wick D V, Martinez T, Payne D M, Sweatt W C, Restaino S R 2005 Proc. of SPIE Bellingham, WA June 22, 2005 p151
[11]
[12]	Seidl K, Knobbe J, Grger H 2009 Appl. Opt. 48 4097
[13]
[14]
[15]	Hu S L, Zhao X, Dong W H, Xie Y J 2011 Opt. Eng. 50 113001
[16]
[17]	Shi G W 2011 Ph. D. Dissertation (Changchun: Chang- chun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences) (in Chinese) [史广维 2011 博士学位论文 (长春: 中国科学院长春光学精密机械与物理研究所)]
[18]
[19]	Yang X J, Wang Z Q, Mu G G, Fu R L 2005 Acta Photon. Sin. 34 1658 (in Chinese) [杨新军, 王肇圻, 母国光, 傅汝廉 2005 光子学报 34 1658]

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