Thermal effects thermal compensation in the OSIRIS camera

机译：OSIRIS摄像机中的热效应和热补偿

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Tight stability requirements for the imager/spectrograph OSIRIS (a Day One optical instrument for the GTC telescope) demand a careful treatment of thermal effects within the OSIRIS camera. Mostly due to the thermal response of refraction indices of its glasses (and not so much to curvature, spacing or thickness variations of the lenses), the camera optics alone degrades beyond requirements the image quality and plate scale under the expected ambient temperature variations (about 1.8 ℃/hour). Thermal effects and thermal compensator studies of the OSIRIS camera are first summarized, before discussing how the motion (of a few microns per ℃) of the 3rd camera doublet, as a sole compensator, practically eliminates thermal influences on both image quality and plate scale. A concept for the passive implementation of the compensator is also discussed.

机译：成像仪/光谱仪OSIRIS（GTC望远镜的第一天光学仪器）的严格稳定性要求要求认真对待OSIRIS相机内的热效应。主要是由于其眼镜的折射率的热响应（而对镜片的曲率，间距或厚度变化影响不大），仅相机光学系统会在预期的环境温度变化（大约为200摄氏度）下降低图像质量和印版尺寸的要求。 1.8℃/小时）。首先概述OSIRIS相机的热效应和热补偿器研究，然后再讨论作为唯一补偿器的第三相机双合体的运动（每℃几微米）如何实际上消除对图像质量和印版比例的热影响。还讨论了补偿器的无源实现的概念。

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《Conference on Instrument Design and Performance for Optical/Infrared Ground-based Telescopes Pt.3, Aug 25-28, 2002, Waikoloa, Hawaii, USA》|2002年|p.1480-1486|共7页
会议地点 Waikoloa HI(US)
作者
J. Jesus Gonzalez; Carlos Tejada; Alejandro Farah; Jose L. Rasilla; F. Javier Fuentes;
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作者单位

Instituto de Astronomia, Universidad Nacional Autonoma de Mexico, Apartado Postal 70-264, Mexico, D.F., Mexico 04510;

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会议组织
原文格式 PDF
正文语种 eng
中图分类无线电电子学、电信技术;
关键词
camera; thermal effects; thermal compensation; athermalization; GTC; OSIRIS;

机译：相机;热效应;热补偿;非热化; GTC; OSIRIS;

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Thermal effects thermal compensation in the OSIRIS camera

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