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激光星际链路分析研究 被引量:1

Analysis and Research of Laser Inter-Satellite Links
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摘要 作为星际光链路的空间激光通信可建立全天候、高机动性、高灵活性、高可靠信息平台。德国空间固体激光通信由两个光通信终端及各自的实验平台组成,可模拟卫星的相对运动和抖动。其一个终端采用1064nmYAG激光器,以650mbps码率传输数据。另一终端采用810nm半导体激光器,通信速率是10mbps。 Space laser communication, which is regarded as Inter-satellite optical links can establish a round-the-clock, high-flexibility, high-agility, high-reliability information platform. SOLACOS (German free space laser communication system), which consists of two optical terminals and their own experiment platforms, can simulate relative movements and wobbles. One terminal adopts 1064nm YAG laser and its communication speed is650 mbps; the other adopts 810nm semiconductor laser, and its communication speed is 10 mbps.
出处 《兵工自动化》 2006年第6期59-60,共2页 Ordnance Industry Automation
关键词 激光星际链路 空间光通信 分析 Laser inter-satellite links Space optical communication Analysis
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参考文献5

  • 1K. Pribil, J. Flemmig, SLACOS System Implementation[J]. Proc. SPIE, 1996, 2381: 142-150.
  • 2K. Pribil, C. Serbe, SOLACOS YKS-An Optical High Data Rate Communication System for Intersatellite Link Applications [J]. Proc. SPIE, 1996, 2381- 83-88.
  • 3Witting M etc. In-orbit Measurements of Micro-Accelerations of ESA's Communication Satellite Olympus [J], SPIE Proc, 1994, 1218: 205-214
  • 4Schultz K Let al, Ground-based Laser Radar Measurement of Satellite Vibrations [J]. Appl. Opt. 1992,31 (36): 7690-7695.
  • 5Masahiro Toyoda etc. Ground to EST-VI Narrow Laser Beam Transmission [J]. SPIE Proc. 1996, 2699: 71-80.

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