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长波红外无线激光通信技术研究现状 被引量:4

Research present situation of LWIR free-space laser communication technology
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摘要 考虑到8~14μm长波红外激光在大气中传输特性优于常用的近红外激光,长波红外无线激光通信技术成为研究热点。比较了长波红外激光与近红外激光在大气中的传输性能,介绍国内外长波红外无线激光通信技术研究情况,并对系统主要关键组件进行了说明。 It is known propagation properties of 8~14μm long-wave infrared(LWIR) laser are better than commonly used near-infrared laser in the atmosphere,LWIR free-space laser communications technology become the research focus.This paper should characterize with performance to adverse meteorological conditions when compared with the systems operating in the near IR.The international and domestic situation about LWIR free-space laser communications technology is introduced,and then key technologies of the system are described.
作者 朱宏韬 代丰羽 王志勇 邱仁和
机构地区 中国电子科技集团公司第三十四研究所
出处 《光通信技术》 CSCD 北大核心 2011年第8期68-71,共4页 Optical Communication Technology
关键词 无线激光通信 量子级联激光器 长波红外 optical wireless communication QCL long-wave infrared
分类号 TN929.12 [电子电信—通信与信息系统]
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参考文献11

  • 1BIELECKIIZ, KOLOSOWSKI W,MIKOLAJCZYK J,et al. Free-space optical communications using quantum cascade laser[C]. Microwave Radar and wireless communications 2008. 17Th Intemation conference ,2008:1-4.
  • 2ACHOUR M. Free-Space Optics Wavelength Selection 10 UM Versus Shorter Wavelengths[J]. Journal of optical networking.2003,2(6): 127-143.
  • 3RAO R. Optical Properties of Atmospheric Turbulence and Their Ef- fects on Light Propagation[G]. Proc. SPIE,2005, 5832:1-11.
  • 4ROCKWELL D A, MECHERLE G S. Wavelength selection for optical wireless communications systems[G]. Proc.SPIE,2001,(4530):27.
  • 5CAPASSO F, PAIELLA R, MARTINI R,et al. Quantum Cascade Lasers: Ultrahigh-Speed Operation, Optical Wireless Communication, Nar- row Linewidth and Far-lnfrarcd Emission [J].IEEE Journal of Quantum Elcc-tronics, 2002,38(6):511-532.
  • 6ZUEV V E. "Laser-light transmission through the atmosphere" in Laser Monitoring of the Atmosphere [M]. E. D. Hinldet, Ed. Heidelberg, Ger- many:Springer, 1976.
  • 7SERVICE R F. How new Beam May Zap Bandwidth Bottlenneck[G]. Science,2001:2454.
  • 8PAVELCHEK A, TRISSEL P, PLANTE J. Long-wave infrared (10μ m) free-space optical communication system[G]. Proc SPIE,2004,(5160):247.
  • 9HUTHCHINSON D P, RICHARDS R K. All-weather long-wavelength infrared free space optical communications [R]. PHYSICS And Astronomy FREE-SPACE LASER COMMUNICATIONS Optical and Fiber Commtmi- cations Reports.2008,(2):407-417.
  • 10HOOD A, EVANS A, RAZEGHI M.Type- II Superlattices and Quan- turn Cascade Laser for MWIR and LWIR Free-space communications [G]. Proc of SPIE,2008(6900):5.

同被引文献26

  • 1张铁英,王红星,朱银兵,孙晓明.判决门限对无线光通信调制方式差错率影响分析[J].弹箭与制导学报,2006,26(4):323-325. 被引量:5
  • 2Juarez J C, Dwivedi A, Hammons A R, et al. Free-space optical communications for next-generation military networks [J]. Commun. Magazine, 2006, 44(11): 46-51.
  • 3Bielecki Z, Kolosowski W, Mikolajczyk J. Free space optical data link using quantum cascade laser [J].PIERS Proc. , 2008,7(2/6) :108-111.
  • 4Achour M. Free space optics wavelength selection: 10 tam versus shorter wavelengths [ Invited ] [ J ]. J. of Opt. Networking, 2003, 2(6): 127-143.
  • 5Pavelchek A,Trissel R G, Plante J, et al. Long-wave infrared (10 tam) free-space optical communication system[J]. Proc. SPIE, 2004: 247-252.
  • 6Bonnefois A M,Bi6rent R, Raybaut M, et al. SCAI,PEL: a long range free space optical communication system with adaptive optics in the MIR handwidth[J]. Proc. SHE, 2010: 78280L-78280L-10.
  • 7Bielecki Z,Mikolajczyk J, Nowakowski M, et al. Free-space optics second generation[J]. Proc. SPIE,2008: 712401-71240L 6.
  • 8Plank T,Leitgeb E, Loeschnigg M. Recent developments on free space optical links and wavelength analysisEC:// Proc. of IEEE the 2011 International Conference on Space Opt. Systems and Appl. (ICSOS), 2011 : 14-20.
  • 9Drost R J, Moore T J, Sadler B M. UV communications channel modeling incorporating multiple scattering interactions[J]. Opt. Society of America, 2011,28 (4) : 686- 695.
  • 10Ding Haipeng,Chen Gang, Arun K, et al. Modeling of non- line-of-sight ultraviolet scattering channels for communication [J]. Selected Areas inCommun. , 2009, 27(9):1535-1544.

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光通信技术
2011年 第8期

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