[1] Olivier S S, Riot V J, Gilme D K, et al. LSST camera optics design [C]Groundbased Airbne Instrumentation f Astronomy IV. International Society f Optics Photonics, 2012, 8446: 84466B.
[2] Barto A, Winters S, Burge J, et al. Design component test results of the LSST Camera L1L2 lens assembly [C]Astronomical Optics: Design, Manufacture, Test of Space Ground Systems. International Society f Optics Photonics, 2017, 10401: 104010N.
[3] Lei Fan, Jingxu Zhang, Xiaoxia Wu, . Optimum design of edge-lateral support for large-aperture lightweight primary mirror. Optics and Precision Engineering, 20, 2207-2213(2012).
[4] Jing Tang, Jingxu Zhang, Qichang An, . Elastomer support for large survey telescope corrector. Infrared and Laser Engineering, 49, 20200124(2020).
[5] Carey L N , Owen R E , Gunn J E , et al. Suppt position control of primary secondary mirrs on the Sloan Digital Sky Survey (SDSS) telescope [C]Survey & Other Telescope Technologies & Discoveries. International Society f Optics Photonics, 2002.
[6] Fabricant D G . Design suppt of the 1.7m f5 secondary mirr f the MMT conversion [C]Symposium on Astronomical Telescopes & Instrumentation f the Century. International Society f Optics Photonics, 1994.
[7] Yuyan Cao, Zhichen Wang, Chao Zhou. Modeling and optimal design of circular-arch flexible structure with radial-freedom considering geometry and material selection simultaneously. Precision Engineering, 48, 83-97(2017).
[8] Yuyan Cao, Zhichen Wang, chao Zhou, . General modeling and optimal design of flexure supporting structure for optical components. Optics and Precision Engineering, 24, 2792-2803(2016).
[9] Chenzhong Wang, Zhongwen Hu, Yi Chen, . Structural design optimization of space gravitational wave telescope primary mirror system. Infrared and Laser Engineering, 49, 20190469(2020).
[10] Huidong Qu, Jiali Wei, Deyi Dong, . Lightweight structural design of rectangular space mirror assembly. Infrared and Laser Engineering, 50, 20200404(2021).
[11] Yuyan Cao, zhichen Wang, Chao Zhou, . Optimization of Circular-axis Flexure Hinge by Considering Material Selection and Geometrical Configuration Simultaneously. Journal of Mechanical Engineering, 53, 46-57(2017).
[12] Yuyan Cao, Jianli Wang, Hongliang Chu, . Design and analysis of bi-flexible mounting structure for large optical lens. Optics and Precision Engineering, 29, 1867-1880(2021).
[13] Lei Zhao, Haifeng Peng, Xinfeng Yu, . Lens support structure of multi point equal supporting with wholly radical freedom. Opto-Electronic Engineering, 42, 43-48(2015).
[14] Liu Zhang, Xiaoyi Zhang, Fan Zhang, . Structural optimization design of large tolerance and multi-flexibility lens subassembly. Journal of Jilin University (Engineering and Technology Edition), 51, 478-485(2021).
[15] Tanveer Karim, Jae H Lee, Daniel J Eisenstein, et al. Validation of emission-line galaxies target selection algorithms for the dark energy spectroscopic instrument using the MMT binospec. Monthly Notices of the Royal Astronomical Society, 497, 4587-4601(2020).
[16] Wei Zhang, Libao Yang, Qingya Li, . Research on compliance of compound circular-parabolic hinges. Infrared and Laser Engineering, 47, 1117009(2018).
[17] Lei Zhao, Ming Ji, Jia Wang, . Design and simulation of fast steering mirrors connected by universal flexure hinges. Infrared and Laser Engineering, 48, 0218002(2019).
[18] Yuan Lin, Guo Tong, Qiu Zhongjun, et al. Measurement of geometrical parameters of cutting tool based on focus variation technology. The International Journal of Advanced Manufacturing Technology, 105, 2383-2391(2019).