[1] KUANG Cui-fang,FENG Qi-bo,FENG Jun-yan,et al. Analyzing characteristic of the four-quadrant detector appl ied to laser al ignment [J]. OPTICAL TECHNIQUE,2004,30(4):387-389.

[2] TAN Qian-li. The Application of Quadrant Photodetector Module on Laser Guidance Technology [J]. SEMICONDUCTOR OPTOELECTRONICS,2005,26(2):155-157.

[3] Yan T Y,Jeganathan M,Lesh J R. Progress on the Development of the Optical Communications Demonstrator [J]. SPIE:Free Space Laser Communication Technologies IX(S0277-786X),1997,2990:94-101.

[4] DANG Li-ping,LIU Jun-hua,TANG Shu-guang. Analysis of the Non-uniformity Effect and Soft Correction Algorithm for Four-quadrant Detector [J]. ACTA PHOTONICA SINICA,2006,35(4):540-544.

[5] Vladimir V Nikulin,Mounir Bouzoubaa,Victor A Skormin,et al. Modeling of the tracking system components of the laser satellite communication systems [J]. Pro. of SPIE(S0277-786X),2001,4272:72-82.

[6] WANG Shi-feng,ZHANG Guo-yu,CHEN Jian-feng,et al. Smart tracking CCD camera with miss distance calculation function [J]. Chinese Journal of Scientific Instrument,2008,29(9):1986-1989.

[7] Eric Saint Georges,John Sender,Gennady Tartakovsky. Free-space optical communication beam acquisition and tracking optimization with 8-segments PSD and small spot size [J]. Pro. of SPIE(S0277-786X),2007,6709:1-12.

[8] Nikulin V,Khandekar R,Sofkaa J,et al. Acousto-optic pointing and tracking systems for free-space laser communications [J]. Pro. of SPIE(S0277-786X),2005,5892:58921C1-58921C9.

[9] TONG Shou-feng,JIANG Hui-lin,LIU Yun-qing,et al. Optimum design of bandwidth for the APT coarse tracking assembly in free space laser communication [J]. Opto-Electronic Engineering,2007,34(9):16-20