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Acta Optica Sinica, Volume. 36, Issue 4, 422006(2016)

Compensation Effect of Radial Preload on Mirror Deformation Caused by Gravity

Jia Shuqiang1、*, Huang Wei1, Xu Xiangru1,2, and Yao Changcheng1,2
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    [1] [1] Marie Laslandes, Emmanuel Hugot, Marc Ferrari, et al.. Mirror actively deformed and regulated for applications in space: design and performance[J]. Optical Engineering, 2013, 52(9): 091803.

    [2] [2] Gong Hui, Chen Wei, Zhou Feng. The vibration suppression designing for large aperture assembly in launch environment[J]. Spacecraft Recovery & Remote Sensing, 2015, 36(3): 40-47.

    [3] [3] Isaac Weingrod, Catherine Y Chou, Buck Holmes, et al.. Design of bipod flexure mounts for the IRIS spectrometer[C]. SPIE, 2013, 8836: 88360Q.

    [4] [4] Zhang Limin, Wang Fuguo, An Qichang, et al.. Application of bipod to supporting structure of minitype reflector[J]. Optics and Precision Engineering, 2015, 23(2): 438-443.

    [5] [5] Hagyong Kihm, Ho-Soon Yang. Design optimization of a 1-m light weight mirror for a space telescope[J]. Optical Engineering, 2013, 52(9): 091806.

    [6] [6] Wang Hui, Zhou Feng, Wang Liping, et al.. Analysis and metrology of reproducibility of high-precision optic mount[J]. Chinese J Lasers, 2013, 40(12): 1208001.

    [7] [7] Wei-Cheng Lin, Shenq-Tsong Chang, Sheng-Hsiung Chang, et al.. Alignment and assembly process for primary mirror subsystem of a spaceborne telescope[J]. Optical Engineering, 2015, 54(11): 115109.

    [8] [8] Nicolae Lobontiu, Ephrahim Garcia. Two-axis flexure hinges with axially-collocated and symmetric notches[J]. Computers & Structures, 2003, 81(13): 1329-1341.

    [9] [9] Kang-Soo Park, Jun Ho Lee, Sung-Kie Youn. Lightweight mirror design method using topology optimization[J]. Optical Engineering, 2005, 44(5): 053002.

    [10] [10] C Y Chan, Y C Chen, S T Chang, et al.. Study of bonding positions of isostatic mounts on a lightweight primary mirror[C]. SPIE, 2012, 8516: 85160M.

    [11] [11] Haeng-Bok Lee, Jin-Young Suk, Jong-In Bae. Trade study of all-SiC lightweight primary mirror and metering structure for spaceborne telescope[C]. SPIE, 9574: 95740D.

    [12] [12] Dai Xiaolin, Xian Hao, Tang Jinlong, et al.. Designing of lateral support system for an 8 m active thin mirror[J]. Acta Optica Sinica, 2015, 35(6): 0622004.

    [13] [13] Hu Haifei, Luo Xiao, Xin Hongwei, et al.. Layout optimization of equal-force supports for ultra-large optical fabrication[J]. Acta Optica Sinica, 2014, 34(4): 0422003.

    [14] [14] Lijuan Yang, Tingwen Xing. Selection of the compensation quantity to the lens deformation caused by gravity[C]. SPIE, 2014, 9281: 92811G.

    [15] [15] Nie Yuqin, Meng Guangwei. Mechanics of materials[M]. Beijing: China Machine Press, 2004: 268-272.

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    Jia Shuqiang, Huang Wei, Xu Xiangru, Yao Changcheng. Compensation Effect of Radial Preload on Mirror Deformation Caused by Gravity[J]. Acta Optica Sinica, 2016, 36(4): 422006

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    Paper Information

    Category: Optical Design and Fabrication

    Received: Nov. 23, 2015

    Accepted: --

    Published Online: Apr. 5, 2016

    The Author Email: Shuqiang Jia (shuqiangjia@163.com)

    DOI:10.3788/aos201636.0422006

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology