[1] Peijian YE, Leyang ZOU, Dayi WANG. Development and prospect of Chinese deep space exploration. Space International, 4-10(2018).

[2] M JIN, W LIU, Y HAO et al. Hybrid dual-hop RF/FSO terrestrial-deep space communication system under solar scintillation during superior solar conjunction. Applied Sciences, 12, 619(2022).

[3] Weiren WU, Dengyun YU, Jiangchuan HUANG. Exploring the solar system boundary. Scientia Sinica Informationis, 49, 1-16(2019).

[5] W CHEN, M ZHANG, D WANG et al. Deep learning-based channel modeling for free space optical communications. Journal of Lightwave Technology, 41, 183-198(2022).

[6] Q WANG, L CUI, H ZHAO et al. Precision location approach in deep-space optical communications. Applied Optics, 60, 2854-2860(2021).

[7] S WANG, D LIANG, Y CHEN. Photonics-assisted joint communication-radar system based on a QPSK-sliced linearly frequency-modulated signal. Applied Optics, 61, 4752-4760(2022).

[8] X Q SUN, W J ZHANG, C J ZHANG et al. Polarization resolving and imaging with a single-photon sensitive superconducting nanowire array. Optics Express, 29, 11021-11036(2021).

[9] Q ZHANG, C PANG, L YANG et al. High sensitivity optical communication based on single-photon detection polarized pulse position modulation. Optics Communications, 490, 126899(2021).

[10] BISWAS A, SRINIVASAN M, ROGALIN R, et al. Status of NASA''s deep space optical communication technology demonstration [C]2017 IEEE International Conference on Space Optical Systems Applications (ICSOS), IEEE, 2017: 2327.

[11] CESARONE R, ABRAHAM D, SHAMBAYATI S, et al. Deepspace optical communications [C]2011 International Conference on Space Optical Systems Applications (ICSOS), IEEE, 2011: 410423.

[12] Xuan WEN, Gencheng WANG, Xin GAO. Effect of Ce doping on radiation resistance of erbium-doped fiber for space laser communication. Infrared and Laser Engineering, 52, 20220871-310(2023).

[13] X SUN, D R SKILLMAN, E D HOFFMAN et al. Free space laser communication experiments from Earth to the Lunar Reconnaissance Orbiter in lunar orbit. Optics Express, 21, 1865-1871(2013).

[14] HANYI M, STERNOVSKY Z, LANKTON M, et al. The Lunar Atmosphere Dust Environment Expler Mission (LADEE) [M]. Berlin: Springer, 2015.

[15] Huilin JIANG, Qiang FU, Yiwu ZHAO. Development status and trend of space information network and laser communication. Chinese Journal on Internet of Things, 3, 1-8(2019).

[16] Duorui GAO, Zhuang XIE, Rong MA. Development current status and trend analysis of satellite laser communication (Invited). Acta Photonica Sinica, 50, 9-29(2021).

[17] Tianshu WANG, Peng LIN, Fang DONG. Progress and prospect of space laser communication technology. Strategic Study of CAE, 22, 92-99(2020).

[18] Xiaoping XIE, Duorui GAO, Wei WANG. Design and realization of satellite-borne space laser communication system. Radio Communications Technology, 46, 577-584(2020).

[19] Duorui GAO, Tianlun LI, Yue SUN. Latest developments and trends of space laser communication. Chinese Optics, 11, 901-913(2018).

[20] Rong MA, Duorui GAO, Sentao WEI. Research on direct modulation RZ-DPSK signal generation technology based on chirp managed laser. Chinese Journal of Lasers, 49, 1306001-89(2022).

[21] D GAO, T LI, Z BAI et al. Multi-modulation compatible miniaturization system for FSO communication assisted by chirp-managed laser. Optics Express, 30, 32306-32316(2022).

[22] Fuhao LI, Jiguang ZHAO, Xiaoping DU. Research status and trend analysis of beam deflection technology based on space laser communication. Infrared and Laser Engineering, 52, 20230004-321(2023).

[23] R VONDRAK, J KELLER, G CHIN et al. Lunar Reconnaissance Orbiter (LRO): Observations for lunar exploration and science. Space Science Reviews, 150, 7-22(2010).

[24] MURPHY D V, KANSKY J E, GREIN M E, et al. LLCD operations using the lunar lasercom ground terminal [C]FreeSpace Laser Communication Atmospheric Propagation XXVI, SPIE, 2014, 8971: 250256.

[25] ROBINSON B, SHIH T, KHATRI F, et al. Laser communications f human space explation in cislunar space: ILLUMAT O2O [C]FreeSpace Laser Communication Atmospheric Propagation XXX, SPIE, 2018, 10524: 231235.

[26] SODNIK Z, SMIT H, SANS M, et al. LLCD operations using the Lunar Lasercom OGS Terminal [C]FreeSpace Laser Communication Atmospheric Propagation XXVI, SPIE, 2014, 8971: 257269.

[27] BOSON D M, ROBINSON B S, MURPHY D V, et al. Overview results of the lunar laser communication demonstration [C]FreeSpace Laser Communication Atmospheric Propagation XXVI, SPIE, 2014, 8971: 213223.

[28] SRINIVASAN M, ALERSTAM E, WOLLMAN E, Et al. The Deep Space Optical Communications project ground laser transmitter [C]FreeSpace Laser Communications XXXV, SPIE, 2023, 12413: 195206.

[29] DEUTSCH L J, LICHTEN S M, RUSSO A J, et al. Toward a NASA deep space optical communications system [C]2018 SpaceOps Conference, American Institute of Aeronautics Astronautics, Inc., 2018.

[30] J BREIDENTHAL, D ABRAHAM. Design reference missions for deep-space optical communication. The Interplanetary Network Progress Report, 42, 205(2016).

[31] DRISCOLL D, ZELLERS B, SCHOMACKER J, et al. Deep space optical communications (DSOC) beam exper design engineering[C]FreeSpace Laser Communications XXXII, SPIE, 2020, 11272: 110119.

[32] GEISLER D J. Modem module development f NASA’s ion spacecraft: Achieving FSO communications over lunar distances[C]Optical Fiber Communication Conference, Optica Publishing Group, 2020: Th3J. 1.

[33] DESCH N, CAROGLANIAN A, GEGE R, et al. Ground segment operations concept f the ion Artemis2 optical communications system [C]SpaceOps 2021, 2021.

[34] SEAS A, ROBINSON B, SHIH T, et al. Optical communications systems f NASA''s human space flight missions [C]International Conference on Space Optics—ICSO 2018, SPIE, 2019, 11180: 182191.

[35] ISRAEL D J, MAULDIN K D, ROBERTS C J, et al. Luna: a flexible extensible lunar explation communications navigation infrastructure [C]2020 IEEE Aerospace Conference, IEEE, 2020: 114.

[36] SCHIER J. Luna overview[R]. Space Communications Navigation (SCaN) Program, 2022.

[37] GIDANO P, SWINDEN R, GRAMLING C, et al. Luna position, navigation, timing services signals, enabling the future of lunar explation [C]Proceedings of the 36th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS+2023), 2023: 35773588.

[38] STUMPF M, ROTH C, MOSBERGER M, et al. OPTELD: an optical communication system f the deep space [C]FreeSpace Laser Communication Atmospheric Propagation XXX, SPIE, 2018, 10524: 95103.

[39] MICHEL P, KUEPPERS M, CARNELLI I, et al. Asteroid Impact Mission (AIM): the European component of the AIDA space project [C]Lunar Plaary Science Conference, 2016, 47: 1204.

[40] SODNIK Z, HEESE C, ARAPOGLOU P D, et al. Deepspace optical communication system (DOCS) f ESA''s space weather mission to lagrange bit L5[C]2017 IEEE International Conference on Space Optical Systems Applications (ICSOS), IEEE, 2017: 2833.

[41] SODNIK Z, HEESE C, ARAPOGLOU P D, et al. European deepspace optical communication program [C]FreeSpace Laser Communication Atmospheric Propagation XXX, SPIE, 2018, 10524: 214222.

[42] Jing MA, Kehua XU, Liying TAN. Extend-beacon tracking for deep space optical communication based on phase-correlation. Optics and Precision Engineering, 515-519(2006).

[43] Jianzhong GUO, Ying TAN, Yong AI. Performance analysis of LDPC coded pulse position modulation for deep-space optical communications. Optical Communication Technology, 57-59(2007).

[44] Tianshu WANG, Hongwei SUN, Jian HAN. Fiber laser phased array for deep-space information transmission. Journal of Deep Space Exploration, 1, 282-288(2014).

[45] Huixi LIAO, Baobi XU, Xiaofeng HUANG. Achievable information rate of deep-space laser uplink communication in presence of beam wander effects. Infrared and Laser Engineering, 46, 285-292(2017).

[46] Weida ZHAN, Hongzuo LI, Zhijian WANG. Link identity analysis and power budget for deep space optical communications. Journal of Air Force Engineering University, 12, 55-60(2011).

[47] Rujie DENG, Yibin ZHANG, Heshan LIU. Ground electronics verification of inter-satellites laser ranging in the Taiji program. Chinese Optics, 16, 765-776(2023).

[48] W HU, Y WU. The Taiji Program in Space for gravitational wave physics and the nature of gravity. National Science Review, 4, 685-686(2017).

[50] KHATRI F I, GONNSEN Z, WANG J P, et al. System level TVAC functional testing f the Integrated LCRD LowEarth bit User Modem Amplifier Terminal (ILLUMAT) payload destined f the International Space Station [C]FreeSpace Laser Communications XXXV, SPIE, 2023, 12413: 9499.

[51] SHELTON M, PULKKINEN A, SUMMERLIN E J, et al. SETH technology demonstration of small satellite deep space optical communications to aid heliophysics science space weather fecasting [C]33rd Annual AIAAUSU Conference on Small Satellites, 2019.

[52] GILLMER S R, SMEATON C V, BURNSIDE J W, et al. Demonstration of a modular, scalable, laser communication terminal f human spaceflight missions [C]Optomechanics Optical Alignment, SPIE, 2021, 11816: 120125.

[53] THOMPSON P L, CAROGLANIAN A, GUZEK J A, et al. NASA’s LCOT (lowcost optical terminal) FSOS (freespace optical subsystem): concept, design, build, test [C]FreeSpace Laser Communications XXXV, SPIE, 2023, 12413: 262279.

[54] TIZ G G, LEE S. Acquisition, tracking, pointing using earth thermal images f deep space optical communications [C]The 16th Annual Meeting of the IEEE Lasers ElectroOptics Society, IEEE, 2003, 1: 8384.

[55] ARETSKINHARITON E, SWANK A, GRAY J S. Beaconless optical communication system constraints [C]AIAA Scitech 2019 Fum, 2019.

[56] HAYDEN W L, MCCULLOUGH T, RETH A, et al. Wideb precision twoaxis beam steerer tracking servo design test results [C]FreeSpace Laser Communication Technologies V, SPIE, 1993, 1866: 271279.

[57] EDWARDS B L, DADDATO R, SCHULZ K J, et al. An update on the CCSDS optical communications wking group interoperability stards [C]2019 IEEE International Conference on Space Optical Systems Applications (ICSOS), IEEE, 2019: 19.

[58] DINU M, AHRENS R, SOCH T, et al. Qualification perfmance of a highefficiency laser transmitter f deepspace optical communications [C]FreeSpace Laser Communications XXXIV, SPIE, 2022, 11993: 129140.

[59] ROBERTS W T. Discovery deep space optical communications (DSOC) transceiver [C]FreeSpace Laser Communication Atmospheric Propagation XXIX, SPIE, 2017, 10096: 229243.

[60] DEUTSCH L J, LICHTEN S M, Hoppe D J, et al. Creating a NASA Deep Space Optical Communications System[M]. Berlin: Springer, 2019.

[61] T ZHANG, H DANG, R ZHA et al. Investigation of a 1.6 K space cryocooler for cooling the superconducting nanowire single photon detectors. IEEE Transactions on Applied Superconductivity, 31, 1-5(2021).