[1] GILBREATH G C,RABINOVICH W S,MAHON R,et al. Modulating retroreflector architecture using multiple quantum wells for free space optical communications[J]. SPIE,1998,3491:581-586. [2] RABINOVICH W S,MAHON R,GOETZ P G,et al.. 45 Mbps cat's eye modulating retro-reflector link over 7 km[J]. SPIE,2006,6304:63040Q. [3] 赵延仲,孙华燕,宋丰华,等. 激光辐照猫眼光学镜头时的反射特性机理研究[J]. 物理学报,2008,57(4):2284-2294. ZHAO Y ZH,SUN H Y,SONG F H,et al. Research on the mechanism of reflection characteristics of laser irradiation on cat eye optical lens[J]. Acta Physica Sinica,2008,57(4):2284-2294.(in Chinese) [4] SWENSON C M,STEED C A. Low power FLC-based retromodulator communications system[J]. SPIE,1997,2990:296-310. [5] RABINOVICH W S,GILBREATH G C,GOETZ P G,et al.. InGaAs multiple quantum well modulating retro-reflector for free-space optical communications[J]. SPIE,2002,4489:190-201. [6] GILBREATH G C,RABINOVICH W S,MEEHAN T J,et al.. Progress in development of multiple-quantum-well retromodulators for free-space data links[J]. Opt. Eng.,2003,42(6):1611-1617. [7] GOETZ P G.,RABINOVICH W S,GILBREATH G C,et al. Multiple quantum well-based modulating retroreflectors for inter- and intra-spacecraft communication[J]. SPIE,2006,6308:63080A. [8] GILBREATH G C,RABINOVICH W S,MEEHAN T J,et al. Compact, lightweight payload for cover data link using a modulating retro-reflector on a small rotary-wing unmanned airborne vehicle[J]. SPIE,2000,4127:57-67. [9] RABINOVICH W S,MAHON R,GOETZ P G,et al.. A cat's eye multiple quantum-well modulating retro-reflector[J]. IEEE Photonics Technology Lett.,2003,15(3):461-463. [10] GOETZ P G,RABINOVICH W S,WALTERS R J,et al. Effects of proton irradiation on InGaAs/AlGaAs multiple quantum well modulators [C]//2001 IEEE Aerospace Conference Proceedings,Mar 10-17,2001,Big Sky,MT,2001,3:1523-1529. [11] RABINOVICH W S,GOETZ P G,MAHON R,et al.. Performance of Cat's eye modulating retro-reflectors for free-space optical communications[J]. SPIE,2003,5550:104-114. [12] RABINOVICH W S,GOETZ P G,MAHON R,et al.. Cat's eye quantum well modulating retro-reflectors for free-space optical communications[J]. SPIE,2003,4975:92-102. [13] GOETZ P G,RABINOVICH W S,MEEHAN T J,et al.. Modulating retro-reflector implementation of MIL-STD-1553 protocol with free-space optics [C]//Aerospace Conference,2003,Proceedings,2003 IEEE,Mar.8-15,2003,Big Sky,USA,2003,4:1799-1808. [14] GAO J L. Sensor network communications using space-division optical retro-reflectors for in-situ science applications [C]//Aerospace Conference,2003,Proceedings,2003 IEEE,Mar.8-15,2003,Big Sky,USA,2003. [15] SPIROU G,YAVIN I,WEEL M,et al.. A high-speed-modulated retro-reflector for lasers using an acousto-optic modulator[J]. Canadian J. Physics,2003,81(4):625-638. [16] SHAY T M,KUMAR R. 2.5-Gbps amplified retro-modulator for free-space optical communications[J]. SPIE,2004,5550:122-129. [17] GOETZ P G,RABINOVICH W S,MAHON R,et al.. Modulating retro-reflector lasercom systems at the naval research laboratory [C]//IEEE Military Communications Conference,MILCOM 2010,Oct.31-Nov.3,2010,San Jose,USA,2010. [18] WANG Q,JUNIQUE S,ALMQVIST S,et al.. 1550 nm surface normal electro absorption modulators for free space optical communications[J]. SPIE,2005,5986:598610. [19] JOHAN ? F,FREDRIK K F,LARS S F,et al.. A high-speed modulated retro-reflector communication link with a transmissive modulator in a cat's eye optics arrangement[J]. SPIE,2007,6736:673619. [20] JUNIQUE S,GREN D,WANG Q,et al.. A modulating retro-re?ector for free-space optical communication[J]. IEEE Photonics Technol. Lett.,2006,18(1):85-87. [21] RANTAKOKKO J,HOLM P. Improved robustness and capacity in modulated retro-reflective(MRR) optical communication links[J]. SPIE,2006,6399:63990B. [22] KULLANDER F,SJ QVIST L, HGREN J,et al.. Laser communication with modulated retro reflectors-progress report,XP00250283 [R],FOI Base Data Report,2006,Linkping,Sweden:1-16. [23] O'BRIEN D C,LIU J J,FAULKNER G E,et al.. Optical wireless networks using self-powered nodes[J]. LEOS Annual Meeting Conference Proceedings,2009,LEOS'09,IEEE,Oct.4-8,2009,Betek-Antalya,Turkey,2009. [24] O'BRIEN D C,LIU J J,FAULKNER G E,et al.. Design and implementation of optical wireless communications with optically powered smart dust motes[J]. IEEE J. Selected Areas in Communications,2009,27(9):1646-1653. [25] O'BRIEN D C,LIU J J,YUAN W W,et al.. Optical wireless communications with low voltage self-powered sensor motes[J]. SPIE,2007,6709:67090A. [26] O'BRIEN D C,YUAN W W,LIU J J,et al.. Optical wireless communications for micro-machines[J]. SPIE,2006,6304:63041A. [27] 付强,姜会林,王晓曼,等. 空间激光通信研究现状及发展趋势[J]. 中国光学,2012,5(2):116-125. FU Q,JIANG H L,WANG X M,et al.. Research status and development trend of space laser communication[J]. Chinese Optics,2012,5(2):116-125.(in Chinese) [28] 谭立英,吴世臣,韩琦琦,等. 潜望镜式卫星光通信终端的CCD粗跟踪[J]. 光学 精密工程,2012,20(2):270-276. TAN L Y,WU SH CH,HAN Q Q,et al.. Coarse tracking of periscope-type satellite optical communication terminals[J]. Opt. Precision Eng.,2012,20(2):270-276.(in Chinese) [29] 张俊玲. 基于超磁致伸缩材料的光学逆向调制器初步研究[D].成都:电子科技大学,2007:16-18. ZHANG J L. Basic research on retro-modulator based on giant magnetostrictive material [D]. Chengdu:University of Electronic Science and Technology,2007,16-18.(in Chinese) [30] 刘秉琦,周斌,武东生,等. 双通道激光主动探测系统[J]. 光学 精密工程,2012,20(2):241-246. LIU B Q,ZHOU B,WU D SH,et al. Dual-channel active laser detection system[J]. Opt. Precision Eng.,2012,20(2):241-246.(in Chinese) [31] 赵延仲 孙华燕 张来线,等. 畸变猫眼效应反射光束的回程传输特性[J]. 中国激光,2011,38(7):85-92. ZHAO Y ZH,SUN H Y,ZHANG L X,et al.. Backwards propagation characteristics of distorted reflected beams with cat-eye effect[J]. Chinese J. Lasers,2011,38(7):85-92.(in Chinese) [32] 张悦,华文深,周斌,等. 分划板失调时猫眼系统的反射特性[J]. 强激光与离子束,2012,24(8):1816-1820. ZHANG Y,HUA W SH,ZHOU B,et al.. Reflection properties of cat-eye optical system with misaligned reticles[J]. High Power Laser and Particle Beams,2012,24(8):1816-1820.(in Chinese) [33] ZHAO Y ZH,SUN H Y,ZHANG L X,et al.. Light intensity at the return place and encirclement power ratio for the distorted reflected beam based on cat-eye effect[J]. Opto-electronics Lett.,2011,7(6):478-482. [34] REN X M,LI L. Recognizing cat-eye targets with dual criterions of shape and modulation frequency[J]. Chinese Optics Lett.,2011,9(4):38-41. [35] 吴荣汉,陈志标,陈弘达,等. 光互连用8×8多量子阱空间光调制器[J]. 中国激光,1998,25(7):603-608. WU R H,CHEN ZH B,CHEN H D,et al.. 8×8 multiple quantum well spatial light modulators for optical interconnection[J]. Chinese J. Lasers,1998,25(7):603-608.(in Chinese) [36] 黄寓洋,刘惠春,WASILEWSKI Z R,等. GaAs/AlGaAs多量子阱空问光调制器入射角度特性研究[J]. 光电子激光,2010,21(5):668-671. HUANG Y Y,LIU H CH,WASILEWSKI Z R,et al.. Incident angle dependence of GaAs/AlGaAs multiple quantum well spatial light modulators[J]. J. Optoelectronics·Laser,2010,21(5):668-671.(in Chinese) [37] HUANG Y Y,LIU H C,WASILEWSKI Z R,et al.. High contrast ration, high uniformity multiple quantum well spatial light modulators[J]. J. Semiconductors,2010,31(3):034007. [38] WU L,YU N M,ZHANG Y H,et al.. A universal programmable driving circuit for spatial light modulators[J]. Chinese J. Semiconductors,2009,7:143-146.