Optical Technique, Volume. 50, Issue 1, 35(2024)
Research on the processing and testing technology of ultra high precision prism
References(8)
[1] [1] Li Zhengyang, Fu Yuegang. Optical characteristics of right-angle roof prism and corner-cube prism[J]. Appliedoptics,2008(05):833—836.
[2] [2] Lv Fu, Han Guohua, Zhang Aili, et al. Study on measurement of sight-line alterationof high precision sightingtelescopes[J]. Laser Technology,2013,37(03):404—408.
[3] [3] Yang Hui, Li Jing, Zhang Bin, et al. Study on ultra-precision machining technology ofoptical free-form prism[J]. Aeronauticalprecision Manufacturing Technology,2019,55(05):1—6.
[4] [4] Jiang Yu. Determination of the first and second opticalparallelism of reflecting prisms in passive devices[J]. Laser Communication,1984(03):22—28.
[5] [5] Ji Yongman, Yang Yingpo. Measurement technology during machining of high-precision wedge prism[J]. Optical Technique,2020,46(05):568—573.
[6] [6] Kui Qunmei. Comparison of two methods of measuring linear expansion coefficient[J]. Science and Technology Information,2021,19(20):40—41.
[7] [7] Jiang Liujie, Wang Xinjie, Zhai Yusheng, et al. High-precision measuring the second optical parallelism error of prism[J]. Laser Magazine,2017,38(07):60—63.
[8] [8] Wu Chuanchao, An Yongquan, Wang Zhibin, et al. A chemical- mechanical planarization study of zinc selenide[J]. Journal of Artificial Lens,2015,44(01):61—65.
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DENG Xiangxing, LI Yonglei, WANG Xinghua, LUO Zhigang, LI Jian, ZHAO Jifan, DUAN Shuhui, WU Sisi. Research on the processing and testing technology of ultra high precision prism[J]. Optical Technique, 2024, 50(1): 35
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