[1] Ke-cong AI. Development and prospect of low-light-level (LLL) night vision technology. Journal of Applied Optics, 27, 303-307(2006).
[2] Sha-lu ZHU, Liang CHEN, Yun-sheng QIAN. Characteristic research of uniform-doping and exponential-doping Ga1-xAlxAs/GaAs photocathode with femtosecond laser illumination. Optik, 183, 629-634(2019).
[3] Jun NIU, Yi-jun ZHANG, Ben-kang CHANG. Influence of exponential doping structure on the performance of GaAs photocathodes. Applied Optics, 48, 5445-5450(2009).
[4] Xiao-hui WANG, Ben-kang CHANG, Yun-sheng QIAN. Comparison between gradient-doping and uniform-doping GaN photocathodes. Acta Physica Sinca, 60, 047901(2011).
[5] Yi-jun ZHANG, Jing ZHAO, Ji-jun ZOU. The high quantum efficiency of exponential-doping AlGaAs/GaAs photocathodes grown by metalorganic chemical vapor deposition. Chinese Physics Letters, 30, 044205(2013).
[6] Yi-jun ZHANG, Jun NIU, Jing ZHAO. Improvement of photoemission performance of a gradient-doping transmission-mode GaAs photocathode. Chinese Physics B, 20, 118501(2011).
[7] Guang-hui HAO, Pan-yang HAN, Xing-hui LI. The electrom emission characteristics of GaAs photocathode with vacuum-channel structure. Acta Physica Sinica, 69, 266-272(2020).
[8] Wen-juan DENG, Dao-lin ZHANG, Ji-jun ZOU. Resolution characteristics of graded band-gap reflection-mode AlGaAs/GaAs photocathodes. Optics Communications, 356, 278-281(2015).
[9] Hong-gang WANG, Yun-sheng QIAN, Yu-jie DU. Resolution properties of reflection-mode exponential-doping GaAs photocathodes. Materials Science in Semiconductor Processing, 24, 215-219(2014).
[10] Ling REN, Ben-kang CHANG. Modulation transfer function characteristic of uniform-doping transmission-mode GaAs/GaAlAs photocathode. Chinese Physics B, 20, 087308(2011).
[11] Lei YAN, Feng SHI, Hong-chang CHENG. Monte Carlo simulation of electron transport in low-light-level image intensifier. Optik, 126, 219-222(2015).
[12] S ORTIZ, D OTADUY, C DORRONSORO. Optimum parameters in image intensifier MTF measurements, 5612, 382-391(2004).
[13] Hong-quan ZHU, Kui-lu WANG, Shi-ming XIANG. Dynamic modulation transfer function measurement of image intensifiers using a narrow slit. Review Scientific Instruments, 79, 023708(2008).
[14] Ling REN, Feng SHI, Hui GUO. Numerical calculation method of modulation transfer function for preproximity focusing electron-optical system. Applied Optics, 52, 1641-1645(2013).
[15] Yu TAO, Wei-qi JIN, Yao WANG. The MTF analysis of high performance proximity image intensifier. Acta Photonica Sinica, 45, 0604003(2016).
[16] Mei-juan WU, Ben-kang CHANG. Simulation of image intensifier resolution in Monte Carlo method. Journal of Vacuum Science and Technology, 32, 798-801(2012).
[17] Wen-hong FU. Research on the theory, experiment and test technology of MCP flare process, 67-68(2006).
[18] Jing ZHAO, Yi-jun ZHANG, Ben-kang CHANG. Research on quantum efficient fitting and structure of high performance transmission-mode GaAs photocathode. Acta Physica Sinica, 60, 679-685(2011).
[19] Li GU, Xiang LI, Jun-lan ZHOU. Photoelectron emission characteristics of photocathode by Monte Carlo method. Chinese Journal of Quantum Electronics, 35, 539-543(2018).
[20] Qing-gai SHENG. Theoretical basis of the camera tube(1984).
[21] Yun-tao XIE, Yu-jun ZHANG, Xiao-quan SUN. Monte-Carlo simulation of output electron cloud from a microchannel plate in a saturation mode. Acta Photonica Sinica, 46, 1125001(2017).
[22] Zeng-quan XUE, Quan-de WU. Electron emission and electron spectroscopy(1993).
[23] Chi-dao FENG. Design and analysis of image tube, 184-192(1990).