| [1] | Xiao Jing, Zhang Bin. Influence of the optical components contamination on the signal to noise ratio in infrared optical systems[J]. Infrared and Laser Engineering, 2012, 41(4):1010-1016. (in Chinese) |
| [2] | Sun Tengfei, Zhang Jun, Lv Haibing, et al. Influence of optical mirror pollution on laser transmission characteristics[J]. Infrared and Laser Engineering, 2014, 43(5):1444-1448. (in Chinese) |
| [3] | Mcguire A F, Hapke B W. An experimental study of light scattering by large, irregular particles[J]. Icarus, 1995, 113(1):134-155. |
| [4] | Paul R Spyak, William L Wolfe. Scatter from particulate-contaminated mirrors. part 2:theory and experiment for dust and =0.6328m[J]. Optical Engineering, 1992, 31(8):1757-1763. |
| [5] | Ma Jing, Zhu Funan, Zhou Yanping, et al. Optical surface pollution detection device for dual-use star and earth[J]. Optics and Precision Engineering, 2016, 24(8):1878-1883. (in Chinese) |
| [6] | Song Yuan, Lu Qipeng, Gong Xuepeng, et al. Carbon contamination cleaning on the surface of multi-layer film reflector of EUV lithography[J]. Optics and Precision Engineering, 2017, 25(11):2835-2844. (in Chinese) |
| [7] | Huang Zhiqiang. Analysis and study of stray light in infrared system[D]. Chengdu:Optoelectronic Technology Research Institute, 2006. (in Chinese) |
| [8] | Kerker M. The Scattering of Light and Other Electromagnetic Radiation[M]. New York:Academy Press, 1969. |
| [9] | Young R P. Low-scatter mirror degradation by particle contamination[J]. Optical Engineering, 1976, 15(6):516-520. |
| [10] | Tribble A C, Boyadjian B, Davis J, et al. Contamination control engineering design guidelines for the aerospace community[C]//SPIE, 1996, 2864:4-15. |
| [11] | Spyak P R, Wolfe W L. Scatter from particulate-contaminated mirrors. part 4:properties of scatter from dust for visible to far-infrared wavelengths[J]. Optical Engineering, 1992, 31(8):1775-1784. |
| [12] | Hamberg O, Shon E M. Particle size distribution on surfaces in clean rooms[R]. California:Vehicle Engineering Division of the Group of the Aerospace Corporation, 1984. |
| [13] | Zhou Lidan. Research on Statistical law between optical component defects distribution and near-field quality in high power laser system[D]. Mianyang:China Academy of Engineering Physics, 2009. (in Chinese) |
| [14] | You Xinghai, Hu Xiaochuan, Peng Jiaqi, et al. Effect of defects of component on stray radiation characteristics of infrared optical system[J]. Infrared and Laser Engineering, 2017, 46(1):0120004. (in Chinese) |
| [15] | Shan Yongguang, Liu Xiaofeng, He Hongbo, et al. Research progress of nodular defect in optical coatings[J]. High Power Laser and Particle Beams, 2011, 23(6):1421-1429. (in Chinese) |
| [16] | Liao Zhibo, Jiao Wenchun, Fu Rimin. Simulation of optical surface in high frequency error analysis of[J]. Infrared and Laser Engineering, 2014, 43(6):1905-1908. (in Chinese) |
| [17] | Dai Yifan, Wu Dongliang, Wang Guilin. The effect of high frequency error on the ratio of scattering loss in optical processing[J]. Optics and Precision Engineering, 2009, 17(10):2365-2370. (in Chinese) |
| [18] | Young R P. Mirror-scatter degradation by particulate contamination[C]//SPIE, 1990, 1329:246-254. |