Cryogenic optical performance of a lightweighted mirror assembly for future space astronomical telescopes: correlating optical test results and thermal optical model

机译：未来空间天文望远镜的轻质镜子组件的低温光学性能：相关光学测试结果和热光学模型

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A 43cm diameter stacked core mirror demonstrator was interferometrically tested at room temperature down to 250 degrees Kelvin for thermal deformation. The 2.5m radius of curvature spherical mirror assembly was constructed by low temperature fusing three abrasive waterjet core sections between two CNC pocket milled face sheets. The 93% lightweighted Corning ULE? mirror assembly represents the current state of the art for future UV, optical, near IR space telescopes. During the multiple thermal test cycles, test results of interferometric test, thermal IR images of the front face were recorded in order to validate thermal optical model.

机译：直径43厘米的堆叠芯镜演示器在室温下在室温下测试至250摄氏度，以进行热变形。通过两种CNC袋磨削面板之间的低温熔合三个研磨水射流芯部分构成2.5米的曲率球形镜组件。 93％轻盈的康宁ULe？镜子组件代表未来UV，光学，靠近IR空间望远镜的最新技术。在多热试验周期期间，记录干涉测量测试的测试结果，记录前面的热红外图像以验证热光学模型。

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《SPIE Conference on Material Technologies and Applications to Optics, Structures, Components, and Sub-Systems》|2013年||共13页
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Ron Eng; William R. Arnold; Marcus A. Baker; Ryan M. Bevan; Gregory Burdick; Michael R. Effinger; Darrell E. Gaddy; Brian K. Goode; Craig Hanson; William D. Hogue; Jeffrey R. Kegley; Charlie Kirk; Steven P. Maffett; Gary W. Matthews; Richard D. Siler; W. Scott Smith; H. Philip Stahl; John M. Tucker; Ernest R. Wright;
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中图分类 50.83;
关键词
Lightweighted ULE? mirror; optical testing; optical model;

机译：轻量化的ule？镜子;光学测试;光学模型;

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专利

1. Cryogenic optical testing of an 800 mm lightweight C/SiC composite mirror mounted on a C/SiC optical bench [J] . Hidehiro Kaneda, Masataka Naitoh, Tadashi Imai, Applied optics . 2010,第20期

机译：安装在C / SiC光学平台上的800毫米轻量级C / SiC复合镜的低温光学测试
2. Comparing optical test methods for a lightweight primary mirror of a space-borne Cassegrain telescope [J] . Wei-Cheng Lin, Shenq-Tsong Chang, Zong-Ru Yu, Measurement Science & Technology . 2014,第9期

机译：比较星载卡塞格林望远镜的轻型主镜的光学测试方法
3. Investigation and treatment of the aluminizing process for mirrors of astronomical telescopes and optical instruments of space vehicles [J] . Azzam Yosry A., El Hameed Afaf M. Abd, El-Tokhy Fatma S., Applied thermal engineering: Design, processes, equipment, economics . 2015,第Null期

机译：航天望远镜天文望远镜镜和光学仪器镀铝工艺的研究与处理
4. Cryogenic optical performance of a lightweighted mirror assembly for future space astronomical telescopes: correlating optical test results and thermal optical model [C] . Ron Eng, William R. Arnold, Marcus A. Baker, Material technologies and applications to optics, structures, components, and sub-systems . 2013

机译：适用于未来太空天文望远镜的轻型镜组件的低温光学性能：将光学测试结果与热光学模型相关联
5. Structural deflections and optical performances of lightweight mirrors. [D] . Cho, Myung Kyu. 1989

机译：轻型镜的结构偏转和光学性能。
6. Optical calibration and performance of the adaptive secondary mirror at the Magellan telescope [O] . Runa Briguglio, Fernando Quirós-Pacheco, Jared R. Males, -1

机译：麦哲伦望远镜的自适应副镜的光学校准和性能
7. Wavefront Calibration Testing of the James Webb Space Telescope Primary Mirror Center of Curvature Optical Assembly [O] . Fischer David J., Wells Conrad, Olczak Gene, 2012

机译：詹姆斯·韦伯太空望远镜主镜中心曲率光学组件的波前校准测试
8. Cryogenic Optical Performance of a Lightweighted Mirror Assembly for Future Space Astronomical Telescopes: Correlating Optical Test Results and Thermal Optical Model [R] . Eng, R, Arnold, W R, Kegley, J R, 2013

机译：用于未来太空天文望远镜的轻质镜组件的低温光学性能：关联光学测试结果和热光学模型

Cryogenic optical performance of a lightweighted mirror assembly for future space astronomical telescopes: correlating optical test results and thermal optical model

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