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    Journals >Infrared and Laser Engineering >Volume 53 >Issue 7 >Page 20240247 > Article
    • Infrared and Laser Engineering
    • Vol. 53, Issue 7, 20240247 (2024)
    Development current status and trends analysis of deep space laser communication (cover paper·invited)
    Duorui GAO1,2,3, Mingyang SUN1,2,3, Mingze HE1,2,3, Shuaiwei JIA1,2,3..., Zhuang XIE1,2,3, Bin YAO1,2,3 and Wei WANG1,2,*|Show fewer author(s)
    Author Affiliations
  • 1State Key Laboratory of Transient Optics and Photonics, Xi’an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi’an 710119, China
  • 2Laboratory of Photonics and Network, Xi’an Institute of Optics and Precision Mechanics, Chinese Academy of Sciences, Xi’an 710119, China
  • 3University of Chinese Academy of Sciences, Beijing 100049, China
    • show less
    DOI: 10.3788/IRLA20240247 Cite this Article
    Duorui GAO, Mingyang SUN, Mingze HE, Shuaiwei JIA, Zhuang XIE, Bin YAO, Wei WANG. Development current status and trends analysis of deep space laser communication (cover paper·invited)[J]. Infrared and Laser Engineering, 2024, 53(7): 20240247 Copy Citation Text show less
    Configuration of LLCD demonstration
    Fig. 1. Configuration of LLCD demonstration
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    Configuration of DSOC demonstration architecture
    Fig. 2. Configuration of DSOC demonstration architecture
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    FLT layout on the Psyche spacecraft
    Fig. 3. FLT layout on the Psyche spacecraft
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    FLT image
    Fig. 4. FLT image
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    GLT at the Table Mountain, CA
    Fig. 5. GLT at the Table Mountain, CA
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    GLR at California Palomar Observatory, CA
    Fig. 6. GLR at California Palomar Observatory, CA
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    Configuration of O2O demonstration
    Fig. 7. Configuration of O2O demonstration
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    O2O optical communication modules on the Orion spacecraft
    Fig. 8. O2O optical communication modules on the Orion spacecraft
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    Configuration of LunaNet
    Fig. 9. Configuration of LunaNet
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    LunaNet DTN overview diagram
    Fig. 10. LunaNet DTN overview diagram
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    Configuration of OPTEL-D demonstration system
    Fig. 11. Configuration of OPTEL-D demonstration system
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    Configuration of DOCS demonstration system
    Fig. 12. Configuration of DOCS demonstration system
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    Configuration of Lagrangian point
    Fig. 13. Configuration of Lagrangian point
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    Configuration of Taiji Program
    Fig. 14. Configuration of Taiji Program
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    Develop tendency of longer communication distance
    Fig. 15. Develop tendency of longer communication distance
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    NASA solar system internet vision
    Fig. 16. NASA solar system internet vision
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    Configuration of UNICON network
    Fig. 17. Configuration of UNICON network
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    ILLUMA-T terminal
    Fig. 18. ILLUMA-T terminal
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    CLCT developed by Fibertek Inc.
    Fig. 19. CLCT developed by Fibertek Inc.
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    Modules of the MAScOT
    Fig. 20. Modules of the MAScOT
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    Components of the LCOT optical ground station module
    Fig. 21. Components of the LCOT optical ground station module
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    DSOC terminal system compositions
    Fig. 22. DSOC terminal system compositions
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    DSOC high power laser emitting component solution
    Fig. 23. DSOC high power laser emitting component solution
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    Aperture of optical ground station antennae for various deep space laser communication missions
    Fig. 24. Aperture of optical ground station antennae for various deep space laser communication missions
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    Next generation OGS array
    Fig. 25. Next generation OGS array
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    Hybrid radio/optical DSN antenna and DSOC flight terminal
    Fig. 26. Hybrid radio/optical DSN antenna and DSOC flight terminal
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    64-pixel SNSPD array for DSOC
    Fig. 27. 64-pixel SNSPD array for DSOC
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    Detailed diagram of SNSPD array
    Fig. 28. Detailed diagram of SNSPD array
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    Deep space laser communication system based on optical parametric amplification
    Fig. 29. Deep space laser communication system based on optical parametric amplification
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    ProjectTimeLink typeCommunication distanceMajor parameters
    注:AU表示天文单位,1 AU≈1.5亿千米
    USALRO2013Lunar-GND400 000 km1064.3 nm300 bps@PPM
    LLCD2013Lunar-GND400 000 km1550 nm622 Mbps/20 Mbps@PPM
    DSOC2023Psyche-GND0.06-2.7 AU1550 nm/1064 nm267 Mbps/1.6 kbps@PPM
    O2O2024Lunar-GND400 000 km1550 nm80-250 Mbps/20 Mbps@PPM
    LunaNet2024Lunar-GND400 000 km1550 nm1 Gbps/20 Mbps@ PPM
    EuropeOPTEL-D(cancel)2020Didymos-GND0.5 AU1550 nm/1064 nm大于260 kbps@PPM
    DOCS2024L5-GND1.0 AU1550 nm/1064 nm10 Mbps/1 kHz@PPM
    ChinaCE-72026Lunar-GND400 000 km1550 nm2.5 Gbps/20 Mbps@PPM
    Table 1. Deep-space laser communication projects
    Abstract
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    Duorui GAO, Mingyang SUN, Mingze HE, Shuaiwei JIA, Zhuang XIE, Bin YAO, Wei WANG. Development current status and trends analysis of deep space laser communication (cover paper·invited)[J]. Infrared and Laser Engineering, 2024, 53(7): 20240247
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