[1] |
Frank G, Florian L, Ralf B. A wide field corrector concept including an atmospheric dispersion corrector for the ESO-NTT [C]//SPIE, 2012, 8446: 5Z1-5Z7. |
[2] |
|
[3] |
Denman C A, Drummond J, Eickhoff M L, et al. Characteristics of sodium guidestars created by the 50-Watt FASOR and first closed-loop AO results at the Starfire Optical Range[C]//SPIE, 2012, 6272: 1L1-1L12. |
[4] |
|
[5] |
Molinari E, Gurtubai A G, Valle A, et al. The new TNG-DIMM: calibrations and first data analysis[C]//SPIE, 2012, 8444: 10-21. |
[6] |
|
[7] |
Andrei T, Roberto T, Patricio S, et al. Performance of the SOAR adaptive module with UV Rayleigh guide star[C]//SPIE, 2012, 8447: 4H1- 4H10. |
[8] |
|
[9] |
|
[10] |
Venetiou A J, Bida T A. Discovery Channel Telescope active optics system early integration and test[C]//SPIE, 2012, 8444: 1E1-1E6. |
[11] |
|
[12] |
Packham C, Jones T J, Warner C, et al. Commissioning results of MMT -POL: the 1-5um imaging polarimeter leveraged from the AO secondary of the 6.5 m MMT[C]//SPIE, 2012, 8446: 3R1-3R8. |
[13] |
Peters-Limbach M A, Groff T D, Kasdin J N, et al. The optical design of CHARIS: an exoplanet IFS for the Subaru telescope[C]//SPIE, 2013, 8864: 1N1-1N5. |
[14] |
|
[15] |
|
[16] |
Cline d'Orgeville, Sarah Diggs, Vincent Fesquet, et al. Gemini South multi-conjugate adaptive optics(GeMS) laser guide star facility on-sky performance results[C]//SPIE, 2012, 8447: 1Q1-1Q10. |
[17] |
|
[18] |
Alexandre Cabral, Joo Coelho, Manuel Abreu, et al. Optical design of a Coud-Train for a stable and efficient simultaneous feeding of the ESPRESSO spectrograph from the four VLT telescopes [C]//SPIE, 2013, 8785: 0L1-0L5. |
[19] |
|
[20] |
Guerra J C, Brusa G, Christou J, et al. The LBT experience of adaptive secondary mirror operations for routine seeing- and diffraction-limited science operations[C]//SPIE, 2013, 8860: I41-I49. |
[21] |
|
[22] |
Han Zhongyi, Wang Jianing, Zeng Yizhong. Qsys NOC-based MPSOC design for LAMOST Spectrographs[C]//SPIE, 2012, 8451: 3D1-3D5. |
[23] |
An Qichang, Zhang Jingxu, Sun Jingwei. TMT third-mirror shafting system alignment based on maximum likelihood estimation[J]. Infrared and Laser Engineering, 2013, 42(11): 3002-3007. (in Chinese) 安其昌, 张景旭, 孙敬伟. 基于最大似然估计的TMT三镜轴系装调[J]. 红外与激光工 程, 2013, 42(11): 3002-3007. |
[24] |
|
[25] |
|
[26] |
Su yanqin, Zhang Jingxu, Chen Baogang, et al. Design of rotator assembly bearing in TMT tertiary mirror system[J]. Infrared and Laser Engineering, 2013, 42(12): 3289-3294. (in Chinese) 苏燕芹, 张景旭, 陈宝刚, 等. TMT 三镜系统Rotator组件轴承设计[J]. 红外与激光 工程, 2013, 42(12): 3289-3294. |
[27] |
|
[28] |
Wang Huai, Dai Shuang, Zhang Jingxu. Azimuth shafting bearing structure in a large Alt-azimuth telescope[J]. Opt Precision Eng, 2012, 20(7): 1509-1516. (in Chinese) 王槐, 代霜, 张景旭. 大型地平式望远镜的方位轴系支撑结构[J]. 光学 精密工程, 2012, 20(7): 1509-1516. |
[29] |
|
[30] |
Fan Lei, Zhang Jingxu, Shao Liang, et al. Axial support for large aperture primary mirror based on hydraulic Whiffle-tree [J]. Infrared and Laser Engineering, 2013, 42(8): 2126-2131. (in Chinese) 范磊, 张景旭, 邵亮, 等. 采用液压Whiffle-tree 的大口径主镜轴向支撑[J]. 红 外与激光工程, 2013, 42(8): 2126-2131. |
[31] |
|
[32] |
Sun Jingwei, Lv Tianyu, Yao Lishuang, et al. Design and assembly of transmitter telescope[J]. Opt Precision Eng, 2014, 22(2): 369-375. (in Chinese) 孙敬伟, 吕天宇, 姚丽双, 等. 发射望远镜的设计与装调[J]. 光学 精密工程, 2014, 22(2): 369-375. |
[33] |
Su Yanqin, Zhang Jingxu, Yang Fei, et al. Conceptual design of rotator assembly bearing in TMT tertiary mirror system [J]. Opt Precision Eng, 2013, 21(6): 1510-1517. (in Chinese) 苏燕芹, 张景旭, 杨飞, 等. 30 m 望远镜的三镜Rotator组件轴承概念设计[J]. 光 学 精密工程, 2013, 21(6): 1510-1517. |
[34] |
|
[35] |
Gao Fuhui. Fourier harmonic analysis method for axial system wobbling of the large-scale theodolite [J]. Optic-Electronic Engineering, 1998, 25(5): 1-15. (in Chinese) 高福晖. 大型经纬仪轴系晃动的傅里叶谐波分析方法[J]. 光电工程, 1998, 25(5): 1-15. |