[1]李婕,张志明,冯生荣.弹载红外光学系统被动消热技术[J].红外技术,2005,27(3):196-201.
 LI Jie,ZHANG Zhi-ming,FENG Sheng-rong.Passive Athermalisation Technique of Infrared Optical System Loading in Missile[J].Infrared Technology,2005,27(3):196-201.
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弹载红外光学系统被动消热技术
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《红外技术》[ISSN:1001-8891/CN:CN 53-1053/TN]

卷:
27卷
期数:
2005年第3期
页码:
196-201
栏目:
出版日期:
2005-05-20

文章信息/Info

Title:
Passive Athermalisation Technique of Infrared Optical System Loading in Missile
文章编号:
1001-8891(2005)03-0196-06
作者:
李婕1张志明2冯生荣1
1.昆明物理研究所,云南 昆明 650223;2.云南北方光学电子集团有限公司,云南 昆明 650114
Author(s):
LI Jie1ZHANG Zhi-ming2FENG Sheng-rong1
1.Kunming Institute of physics,Kunming,Yunnan, Yunnan Kunming 650223, China;
2.Yunnan North Optical and Electric Co.Ltd, Yunnan Kunming 650114, China

关键词:
红外光学系统离焦消热差设计
Keywords:
infrared optical systemdefocusingathermalisation
分类号:
TN214
文献标志码:
A
摘要:
环境温度的变化对红外光学系统的影响很大,针对此类问题,分析了国内外典型的消热方法,比较其优缺点。根据弹载红外光学系统工作的特殊性,采用光学被动消热方法进行实例设计,得出了在-30℃~50℃范围内实现环境温度补偿的系统设计参数和评价结果。所设计的结果结构简单可行,在要求的温度范围内性能稳定。
Abstract:
The effect on optical system caused by environmental temperature variation and several typical athermalisation techniques as well as theirs’ advantages and disadvantages were presented in this paper. Based on the specialization of infrared optical system loading in missile, it proved that optical passive athermalisation technique is a wise choice. And an optical system with high quality and simple configuration in large working temperature range -30℃~50℃ was designed and evaluated.?

参考文献/References:

[1] ?Povey V.. Athermalisation techniques in infrared systems[J]. SPIE. 1986, 655:?
142.
[2] ?M.Roberts. Athermalization of infrared optics:a review[J]. SPIE. 1989, 1049:
?72~81.
[3] ?Jamieson T H. Thermal effects in optical systems[J]. Optical Engineering. 1981,?
20(2): 156~160.
[4] ?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).
[5] ?Fisher R.E. Optical Design in the infrared[J]. SPIE. 1985, 531: 82.
[6] ?冯生荣, 李凯. 红外光学系统的热效应[J]. 红外技术. 1990, 12(2): 6~11.

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备注/Memo

备注/Memo:
收稿日期:2004-08-26
作者简介:李婕,女,硕士在读,从事光学设计及测试工作。
更新日期/Last Update: 2015-07-09