[1] Lu LIU, Ming GUO, Yanming AN et al. High repeating frequency characteristics of image intensifier in high-speed imaging application. Acta Photonica Sinica, 46, 1123004(2017).
[2] Jingsheng PAN. Image intensifier upgraded performance and evaluation standard. Infrared Technology, 42, 509-518(2020).
[3] Jinsheng TIAN. New development of low level imaging sensor technology. Infrared Technology, 35, 527-534(2013).
[4] Hui GUO, Shiming XIANG, Minqiang TIAN. A review of development of low light level night vision technology. Infrared Technology, 35, 63-68(2013).
[5] Yafeng QIU, Wuling YAN, Sangtun HUA. Resolution research of low-light-level image intensifier based on electronic trajectory tracking. Acta Photonica Sinica, 49, 1223003(2020).
[6] Xiaofeng LI, Le CHANG, Jinneng ZENG et al. Study on resolution improvement of microchannel plate. Acta Photonica Sinica, 48, 1223002(2019).
[7] Meijuan WU, Ling REN, Benkang CHANG et al. Simulation of image intensifier resolution in Monte Carlo Method. Chinese Journal of Vacuum Science and Technology, 32, 798-801(2012).
[8] Liping TIAN, Wenlong WEN, Xing WANG et al. Research on the spatial-temporal and gain performances on the small-size streak tube. Acta Photonica Sinica, 48, 0723002(2019).
[9] Xiaofeng LI, Tingtao LI, Jinneng Zeng et al. Study on the improvement of input signal utilization of MCP. Acta Photonica Sinica, 49, 0325002(2020).
[10] Dan LI, Yufeng ZHU, Huimin ZHAO et al. Research on noise factor characteristic of micro-channel plate. Infrared Technology, 39, 1066-1070(2017).
[11] Xiaofeng LI, Le CHANG, Jinsha LI et al. Study on the relationship between noise factor and working voltage of microchannel plate. Acta Photonica Sinica, 49, 0725002(2020).
[12] Xiaofeng LI, Zhenjun ZHANG, Xiaoqing CONG et al. Influence of microchannel plate structure parameters on noise factor. Acta Photonica Sinica, 50, 0225001(2021).
[13] Yisong ZHOU. Electric vacuum imaging device and its theoretical analysis(1989).
[14] Shiming XIANG, Guoqiang NI. The principle of photoelectronic imaging device(2006).
[15] Benkang CHANG. Multi-alkali photocathode(2001).
[16] Tianyou KANG, Ling REN, Kaimin ZHANG et al. Electronic structures and optical properties of cubic crystal K2CsSb,K3Sb and Cs3Sb Cathode Materials. Acta Photonica Sinica, 49, 0116001(2020).
[17] Xiaofeng LI, Liu FENG, Qiang LU. Photoemission theory of multi alkali cathode. Acta Photonica Sinica, 42, 1176-1181(2013).
[18] Xiaofeng LI. Photoemission process study of multi-alkali photocathode in the super second generation image intensifier. Acta Photonica Sinica, 42, 7-12(2013).
[19] Xiaofeng LI, Le CHANG, Yongsheng QIU et al. Measurement of quantum yield and image of microchannel plate in near ultraviolet band. Acta Photonica Sinica, 49, 0325001(2020).
[21] Xiaofeng LI, Xuefeng ZHAO, Qijun CHEN et al. Study on K2Te(Cs) solar blind ultraviolet cathode. Acta Photonica Sinica, 43, 155-160(2014).
[22] Jian SUN. Study on the characteristics of black aluminium film for TV Tubes. Journal of Xi'an Jiaotong University, 20, 79-86(1986).
[23] Yunsheng QIANG, Benkang CHANG, Moying TONG et al. Frequency spectrum measurement of noise of image intensifier. Acta Photonica Sinica, 21, 67-70(2003).
[24] Xiaofeng LI, Heng ZHAO, Le CHANG et al. Comparison of resolution between super Gen.Ⅱ and Gen.Ⅲ Image Intensifier. Acta Photonica Sinica, 50, 0904003(2021).
[26] Xiaoqing CONG, Xiangbiao QIU, Jianning SUN et al. Properties of microchannel plate emission layer deposited by atomic layer deposition. Infrared and Laser Engineering, 45, 0916002(2016).