基于功率谱密度分析真空吸盘对加工KDP晶体表面的影响
[1] 杨力. 先进光学制造技术[M]. 北京: 科学出版社, 2001. 235~324
Yang LI. Advanced Optical Manufacturing Technology\[M\]. Beijing: Science Press, 2001. 235~324
[2] 杨福兴. KDP晶体超精密加工技术的研究[J]. 制造技术与机床, 2003, (9): 63~65
Yang Fuxing. Study on the ultra-precision machining technology for KDP crystals[J]. Manufacturing Technology & Machine Tool, 2003, (9): 63~65
[3] 王奔. KDP晶体不同加工表面损伤检测与损伤机理分析[D]. 大连: 大连理工大学, 2008. 9~12
Wang Ben. Damage Detection of Different Machined Surface and Damage Mechanism Analysis of KDP Crystal[D]. Dalian: Dalian University of Technology, 2008. 9~12
[4] 刘耀红, 滕霖, 李大琪 等. 功率谱密度(PSD)在评价超精密光学表面中的应用研究[J]. 航空精密制造技术, 2006, 42(2): 1~3
Liu Yaohong, Teng Lin, Li Daqi et al.. Application of power spectral density to specify optical super-precision surface[J]. Aviation Precision Manufacturing Technology, 2006, 42(2): 1~3
[5] 张蓉竹, 蔡邦维, 杨春林 等. 功率谱密度的数值计算方法[J]. 强激光与粒子束, 2000, 12(6): 661~664
Zhang Rongzhu, Cai Bangwei, Yang Chunlin et al.. Numerical method of the power spectral density[J]. High Power Laser and Particle Beams, 2000, 12(6): 661~664
[6] J. K. Lawson, C. R. Wolfe, K. R. Manes et al.. Specification of optical components using the power spectral density function[C]. SPIE, 1995, 2536: 38~50
[7] 戴斌飞. 面形精度评价方法研究[D] . 苏州: 苏州大学, 2005. 31~50
Dai Binfei. Study on Methods for Assessing Precision of Optical Surface[D]. Suzhou: Soochow University, 2005. 31~50
[8] W. H. Williams, J. M. Auerbach, M. A. Henesian et al.. Modeling characterization of the National Ignition Facility focal spot[C]. SPIE, 1999, 3264: 93~104
陈珊珊, 徐敏. 基于功率谱密度分析真空吸盘对加工KDP晶体表面的影响[J]. 激光与光电子学进展, 2011, 48(9): 092201. Chen Shanshan, Xu Min. Analysis on Influence of Vacuum Chuck on Machined Surface of KDP Crystal Using Power Spectral Density[J]. Laser & Optoelectronics Progress, 2011, 48(9): 092201.