[3] JIN Wei-qi, WANG Zhi-hong, LIU Guang-rong, et al. Image intensifier’s progress and division of generations[J]. Optical Technique, 2004, 30(4): 460-463.
[4] BOSCH L A. Image intensifier tube performance is what matters[C]. SPIE, 2000, 4128: 66-78.
[5] XIANG Shi-ming. Theoretical resolution limit of double- proximity focusing image intensifiers[J]. Journal of Applied Optics, 2008, 29(3): 351-353.
[6] CHENG Yao-jin, XIANG Shi-ming, SHI Hong-li. Theoretical model for resolution calculation of third generation image intensifiers[J]. Journal of Applied Optics, 2007, 28(5): 578-581.
[9] ZHOU Li-wei, AI Ke-cong, FANG Er-lun. Study of electron-optical modulation transfer function and root mean square radius in the photoelectronic image focusing systems[J]. Journal of Beijing Institute Thehnology, 1982, 2(3):36-51.
[10] ZHOU Li-wei, ZHNG Zhi-quan, NI Guo-qiang. On modulation transfer function of cathode lenses in image tube[C].Photoelectronic Image Devices, 1991 The Institute of Physics Conference Series, 121, 405-419.
[11] SONG Ke-chang.MTF Evaluation of double- proximity focusing image intensifiers[J].Acta Photonica Sinica, 1985, 12(3): 1-22.
[12] LIU Qing-fei, YANG Bo, HU Bo.The effect of ion barrier film on the performance of third generation image intensifiers[J]. Jichengdianlu Tongxun, 2008, 26(3): 14-16.
[13] Image intensifier Generation 3 18-mm, MX-10160 (F9800 Series)[EB/OL]. www.exelisinc.com.
[15] REN Ling, SHI Feng, GUO Hui, et al. Effect of pro-proximity pulse voltage on the third-generation low light image intensifiers halo effect[J]. Acta Physics Sinica, 2013, 62(1): 014206.
[16] DIJK J, VAN EEKEREN A W M, TOET A, et al. Evaluation of intensified image enhancement through conspicuity and triangle orientation discrimination measures[J]. Optical Engineering, 2013, 52(4):041105.