[1] Xizheng KE, Lijun DENG. Wireless optical communication, 11-14(2016).

[2] Xizheng KE, Jiali WU, Shangjun YANG. Research progress and prospect of atmospheric turbulence for wireless optical communication. Chinese Journal of Radio Science, 36, 323-339(2021).

[3] Zheng LI, Zhiwen LIAO, Jingyuan LIANG et al. Research and prospects of atmospheric turbulence model and atmospheric channel model. Optical Communication Technology, 47, 9-17(2023).

[4] Qinghua JIANG, Lijing LI, Tengfei LIU. Design of seeker signal processing system based on four-quadrant detector. Electronic Measurement Technology, 41, 88-92(2018).

[5] Pengfei LIU, Cuilian SONG, Yuchao MA. Design of a four quadrant detector for shimmer detection. Foreign Electronic Measurement Technology, 39, 99-104(2020).

[6] Xi LI. Research on precision positioning technology based on QD(2011).

[7] D LI, S LIU, W BIN. Research on factors that influence detecting precision of quadrant detector. International Journal of Advancements in Computing Technology, 3, 112-117.(2011).

[8] N HERMOSA, A AIELLO, J P WOERDMAN. Quadrant detector calibration for vortex beams. Optics Letters, 36, 409-411.(2011).

[9] Y MENG, A X SUN, G Y ZHANG et al. Research effect of four-quadrant detector detection spot in atmospheric turbulence. Applied Mechanics and Materials, 552, 123-127(2014).

[10] Xin ZHAO, Shoufeng TONG, Huilin JIANG. Experimental testing on characteristics of four-quadrant detector. Optics and Precision Engineering, 18, 2164-2170(2010).

[11] Jingyuan LIANG, Weilong KANG, Zhuang DONG et al. Research progress of optical antenna technology in free space optical communication system. Optical Communication Technology, 46, 1-10(2022).

[12] Xizheng KE, Shiyan LI. Experimental study on optical axis alignment of the optical antenna under the spot broken. Acta Photonica Sinica, 46, 133-141(2017).

[13] Yuanqing ZHANG. Design of spot position detection and tracking system for space laser communication(2018).

[14] H W GUO, R Q LIU, Z Q DENG et al. Performance analysis and testing of four-quadrant position sensitive detector. Advanced Materials Research, 317/318/319, 1107-1113(2011).

[15] Mengwei CHEN. Research on spot center location algorithm based on image detector(2013).

[16] H HEMMATI, A BISWAS, I B DJORDJEVIC. Deep-space optical communications: future perspectives and applications. Proceedings of the IEEE, 99, 2020-2039.(2011).

[17] J TAKASHI. Optical inter-orbit communication experiment between OICETS and ARTEMIS. Journal of the National Institute of Information and Communications Technology, 59, 23-33.(2012).

[18] M BAILLY, E PEREZ. Pointing, acquisition, and tracking system of the European SILEX program: a major technological step for intersatellite optical communication, 142-157(1417).

[19] M GUELMAN, A LIVNE, H MICHALIK et al. Broadband laser intersatellite link for microsatellites: project overview. Space Technology, 22, 113-119.(2002).

[20] M TOYODA, K ARAKI, Y SUZUKI. Measurement of the characteristics of a quandrant avalanche photo-diode application to a laser tracking system. Optical Engineering, 41, 145-149.(2002).

[21] M TOYOSHIMA, H TAKENAKA, Y SHOJI et al. Results of Kirari optical communication demonstration experiments with NICT optical ground station (KODEN) aiming for future classical and quantum communications in space. Acta Astronautica, 74, 40-49(2012).

[22] E J LEE, Y PARK, C S KIM et al. Detection sensitivity of the optical beam deflection method characterized with the optical spot size on the detector. Current Applied Physics, 10, 834-837.(2010).

[23] C SCHMIDT, J HORWATH. Wide-field-of-regard pointing, acquisition and tracking-system for small laser communication terminals. Proceedings of ICSOS, 8, 1-6.(2012).

[24] Ž P BARBARIĆ, S M MANOJLOVIĆ, B P BONDŽULIĆ et al. New relationship of displacement signal at quadrant photodiode: control signal analysis and simulation of a laser tracker. Optik, 125, 1550-1557.(2014).

[25] Z L CHEN, J J YAN. Impact of pointing errors on performance of a ground-to-satellite laser uplink communication system based on M-ary pulse position modulation. The Journal of China Universities of Posts and Telecommunications, 16, 20-23.(2009).

[26] B S ROBINSON, D M BOROSON, D A BURIANEK et al. The lunar laser communications demonstration, 54-57(2011).

[27] B S ROBINSON, D M BOROSON, D A BURIANEK et al. Overview of the lunar laser communications demonstration(2011).

[28] Jiabin WU. Research on high-precision laser spot position detection technology based on four-quadrant detector(2016).

[29] H SAFI, A DARGAHI, J L CHENG. Beam tracking for UAV-assisted FSO links with a four-quadrant detector. IEEE Communications Letters, 25, 3908-3912.(2021).

[30] Daisheng XU. Optimal design for signal light spot of detecting systems with quadrant detectors. Journal of Hunan Institute of Science and Technology (Natural Sciences), 20, 50-53(2007).

[31] Xin ZHAO, Shoufeng TONG, Yunqing LIU et al. Application research on four-quadrant detector in space laser communication system. Journal of Optoelectronics Laser, 21, 46-49(2010).

[32] Hui ZHANG, Yunshan CHEN, Tianwen GENG et al. Study on main factors affecting position detection accuracy of four-quadrant detector. Chinese Journal of Lasers, 42, 306-314(2015).

[33] Jun ZHANG, Weixian QIAN, Zewei LIU. Analysis and correction of the output non-uniformity of four quadrant detector. Infrared Technology, 38, 565-570(2016).

[34] Shiyan LI. Research on experimental scheme of spot accurate alignment in wireless laser communication system(2018).

[35] Shude LI, Caixia LIU, Lin XU et al. Research on positioning accuracy of four quadrant detector in inter-satellite laser communication. Study on Optical Communications, 61-65(2021).

[36] Kuan DIAO, Xiaojun LIU, Long XU et al. Research on factors affecting spot positioning accuracy of four-quadrant detector. Journal of Huazhong University of Science and Technology (Nature Science Edition), 50, 14-18(2022).

[37] Yong CHEN, Tianrui ZHU, Huangong LI. Analysis and improvement in angle-measurement algorithm of the four-quadrant detector. Laser & Infrared, 39, 669-672(2009).

[38] Dongsen SI, Zengzhi LI, Xiaoxu WANG. An intelligent tracking algorithm using four-quadrant detector. Journal of Xi'an Jiaotong University, 46, 13-17(2012).

[39] Mengwei CHEN, Yingping YANG, Xinting JIA et al. Research of spot center location algorithm for four quadrant detector. Journal of Wuhan University of Technology (Transportation Science & Engineering), 37, 1124-1127(2013).

[40] J B WU, Y S CHEN, S J GAO et al. Improved measurement accuracy of spot position on an InGaAs quadrant detector. Applied Optics, 54, 8049-8054.(2015).

[41] Xiaokang GUO, Yanmei ZHANG, Shijie HE. Study on high precision positioning algorithm of spot center based on the four-quadrant detector. Laser & Infrared, 47, 1353-1357(2017).

[42] Yepeng GOU, Xing LIU, Qiang LIU et al. A four-quadrant detector spot position detection algorithm based on infinite integral algorithm. Laser & Infrared, 51, 1249-1256(2021).

[43] Licun QIN, Wei HE. Laser spot center location algorithm based on four-quadrant detector. Applied Laser, 41, 561-568(2021).

[44] Dai WANG, Shihong YANG. Double-axis tracking control techniques based on four-quadrant detector. Opto-Electronic Engineering, 30, 31-33(2003).

[45] W ZHANG, H ZHANG, B LIU et al. Design of small laser tracking system based on four-quadrant detector. Applied Mechanics and Materials, 300/301, 393-399(2013).

[46] Xinkun FAN, Lei ZHANG, Yansong SONG et al. Simultaneous detection technology of tracking and communication based on four-quadrant detector. Chinese Journal of Lasers, 44, 247-254(2017).

[47] Xin LIN, Ying GUO, Mingzhu HAN et al. Research on two-dimensional laser beam scanning and tracking system based on four quadrant detector. Semiconductor Optoelectronics, 39, 425-430(2018).

[48] Siming LIU, Ning HE, Deying DENG. Design and implementation of laser tracking system based on four quadrant detection. Journal of Guilin University of Electronic Technology, 39, 7-11(2019).

[49] Ruiyang WANG, Xiaonan YU, Shoufeng TONG et al. Design of tracking and communication composite digital receiver for four quadrant detectorn. Journal of Changchun University of Science and Technology, 42, 42-50(2019).

[50] Linzheng WANG, Hua ZOU, Shuo HUANG et al. Closed-loop control method of optical fiber positioning of centeropening four-quadrant detector. Infrared and Laser Engineering, 49, 264-270(2020).

[51] X Z KE, H L LIANG. Airborne laser communication system with automated tracking. International Journal of Optics, 2021, 1-8(2021).

[52] Hanli LIANG. Design and implementation of automatic tracking control system for airborne laser communication(2022).

[53] Yun CHEN, Xiaonan YU, Lun JIANG et al. Research on servo technology of micro nano laser communication terminal based on QD and MEMS micromirror. Journal of Changchun University of Science and Technology, 45, 39-44(2022).

[54] Qian LI. Research on spot position detection technology of space laser communication based on array detector(2020).