[1]吕银环,雷存栋,崔维鑫.长波红外地平仪的无热化光学系统设计与实现[J].红外技术,2011,33(11):651-654.
 LV Yin-huan,LEI Cun-dong,CUI Wei-xin.Design and Realization of Athermalizing Optical Systemfor Long-wave Infrared Horizon Sensor[J].Infrared Technology,2011,33(11):651-654.
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长波红外地平仪的无热化光学系统设计与实现
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《红外技术》[ISSN:1001-8891/CN:CN 53-1053/TN]

卷:
33卷
期数:
2011年11期
页码:
651-654
栏目:
出版日期:
2013-10-16

文章信息/Info

Title:
Design and Realization of Athermalizing Optical System
for Long-wave Infrared Horizon Sensor

文章编号:
1001-8891(2011)11-0651-04
作者:
吕银环雷存栋崔维鑫
中国科学院上海技术物理研究所,上海 200083
Author(s):
LV Yin-huanLEI Cun-dongCUI Wei-xin
Shanghai Institute of Technical Physics, Chinese Academy of Sciences, Shanghai 200083, China
关键词:
长波红外光学系统离焦效应无热化设计
Keywords:
long-wave infrared optical systemdefocus effectathermalizing design
分类号:
V249.122
文献标志码:
A
摘要:
长波红外地平仪光学系统受空间应用环境的影响很大,环境温度的变化会引起光学系统的离焦效应,通过理论计算长波红外光学系统的温度适用范围,光学设计结果仿真在该温度范围内光学系统的成像质量,实际光机结构设计时考虑到光学系统的离焦补偿,实现长波红外光学系统的无热化设计。
Abstract:
The optical system of long-wave infrared horizon sensor is vulnerable to the impact of ambient temperature changes in space applications, the ambient temperature changes will cause the optical system defocus effect . The temperature ranges is calculated with the long-wave infrared optical system. The optical system image quality is simulated as the results of optical design in this temperature range. The optical system defocus compensation is considered when the optical structure is designed. The athermalizing design is realized for the long-wave infrared optical system.

参考文献/References:

[1] ?W.G. Baer, K. Najafi, K.D. Wise, R.S. Toth, A 32-element micromax chined thermal imager with on-chip multiplexing, Sens[J]. Actuators, 1995, A48: 47-54.

[2] ?J.P. Krebs, L. Blarre, D. Guillon. Low Cost Static Infrared Earth Sensors for Small and Micro-Satellites in LEO, 4th Int. Symp[J]. Small Satellites Systems and Services, Antibes-Juan les Pins, 1998: 14-18.
[3] ?J.P. Krebs, R. Navoni, New Static Earth Sensor STS02 for GEO Platforms, Int. Workshop on Spacecraft Attitude and Orbit Control Systems[M]. ESTEC, Noordwijk, the Netherlands, 1997: 15-17.
[4] ?Kevin C. Liddiard. Future advances in uncooled IR sensor technology[C]//SPIE, 2000, 4130.
[5] ?张华达. 红外面阵焦平面地平仪[J]. 红外, 2004(2): 1-9.
[6] ?贝治年. 小卫星静态红外地平仪信号获取及信息处理技术研究[D]. 上海技术物理研究所硕士论文, 2002: 10-14.?
[7] ?Jamieson T H. Thermal effects in optical systems[J]. Optical Engineering,1981, 20: 156- 160.
[8] ?Grey D S. Athermalisation of optical systems[J]. Journal of optical society of American, 1948, 38(6): 542-546.
[9] ?吴晓靖, 孟军和. 使用简单机械结构实现红外光学系统无热化[J]. 红外与激光工程, 2005, 34(4): 391- 393.
[10] ?Bai J, Yang G G, et al. . Design and fabrication of infrared hybrid refractive diffractive optical system for 325Lm band[C]//SPIE, 2002, 4927: 109-117.
[11] ?Wood A P. Design of infrared hybrid refractive-diffractive lenses[J]. A pplied Optics, 1992, 31(13): 2253-2258.
[12] ?吴晓靖, 孟军和. 红外光学系统无热化设计的途径[J]. 红外与激光工程, 2003, 32(6): 572- 576.
[13] ?吴晓靖, 孙赤全, 孟军和. 红外光学系统无热化设计与变焦距镜头的关系[J]. 红外与激光工程, 2002, 31(3): 249- 252.
[14] ?胡玉禧, 周绍祥, 相里斌, 等. 消热差光学系统设计[J]. 光学学报, 2000, 20(10): 1386-1391.
[15] ?吕银环, 崔维鑫, 张涛, 刘学明.广角长波红外物镜环境适应性分析[J]. 红外与激光工程, 2007, 36(6): 884-895.?

备注/Memo

备注/Memo:
收稿日期:2011-08-06.
作者简介:吕银环(1974-),女,河南商丘人,副研究员,博士,研究方向为红外光学设计与空间科学。Email:lvyh2001@yahoo.com.cn .

更新日期/Last Update: 2013-10-24