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OFC 2000报道大容量光纤通信继续进展 被引量:3

Technology Progress of Large capacity Optical fiber Communications as reported by OFC 2000
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摘要 介绍 2 0 0 0年 3月光纤通信学术会议宣读论文的主要内容 ,显示国际上对于大容量、长距离光纤通信利用波分多路的最新研究试验进展情况。还简要说明光纤光缆、光放大、光器件和光试验网的最新发展。文末附载参考文献 ,列举 18篇论文题目。 The paper introduces the technological progress of WDM based large capacity optical fiber communications as reported in the International Optical Fiber Communication Conference held on March 7,2000.The paper also briefly describes the present status of optical fiber and cable,optical amplification,optical components,and optical networking.
作者 张煦
机构地区 上海交通大学电子工程系
出处 《光通信技术》 CSCD 北大核心 2000年第3期165-168,共4页 Optical Communication Technology
关键词 光纤通信 波分多路 光放大 光试验网 Optical fiber communication Wavelength division multiplexing Optical amplification Optical networking
分类号 TN929.11 [电子电信—通信与信息系统]
  • 相关文献

参考文献10

  • 1Ketelsen L J P,et al.2. 5Gb s transmission over 680km using a fully stabilized 20 channel DBR laser with monolithically integrated semiconductor optical amplifier photodetector, and electroabsorption modulator[].PD.
  • 2Nissoc M,etal.3 0× 2 0 Gb/ s transmission over trans-Atlantic distance ( 6,2 0 0 km) with 3 1% spectral efficiency[].PD.
  • 3Ito T,et al.3. 2 Tb s-1, 500km WDM transmission experiment using 64nm hybrid repeater amplifiers[].PD.
  • 4Nielsen T N,et al.3. 28 Tb s(82×40Gb s)transmission over 3×100km nonzero-dispersion fiber using dual C-and L-band hybrid Raman Erbium-doped inline amplifiers[].PD.
  • 5Haxell I,et al.2410km all optical network field trial with 10 Gb s DWDM transmission[].PD.
  • 6Kim H K,et al.1. 6Tb s(40×40Gb s)total capacity 4-node optical networking with fully programmable A D devices[].PD.
  • 7Blondel J P,et al.Network application and system demonstration of WDM systems with very large spans ( error-free 32×10Gbit s 750km transmission over 3 amplified spans of 250km)[].PD.
  • 8Terahara T,et al.128×10. 66Gbit s transmission over 840km standard SMF with 140km optical repeater spacing (30. 4dB loss ) employing dual band distributed Raman amplification[].PD.
  • 9Neilson D T,et al.Fully provisioned 112×112 micro-mechanical optical crossconnect with 35. 8Tb s demonstrated capacity[].PD.
  • 10Miyamoto Y,et al.1. 2 Tbit s (30×42. 7 Gbit s ETDM optical channel )WDM transmission over 376km with 125km spacing using forward error correction and carrier suppressed RZ format[].PD.

同被引文献11

  • 1蒋西虹.医学物理的最新成果──质子疗法[J].核物理动态,1995,12(1):62-63. 被引量:2
  • 2[1]Stephen W.Optical Fiber Communications[M].the United States of America:McGraw-Hill Companies,Inc.,1983,203-500.
  • 3[2]Lee T P.Recent advances in long-wavelength semiconductor laser for optical fiber communication[J].accepted by IEEE Proc,1991,vol.9:253-276.
  • 4[3]ITU-T G.691-2000,Optical interfaces for single channel STM-64,STM-256 systems and other SDH systems with optical amplifiers[S].
  • 5[4]ITU-T G.663-1997,Application related aspects of optical fiber amplifier devices and sub-systems[S].
  • 6[5]ITU-T G.652-1997,Characteristics of a single mode optical fiber cable[S].
  • 7[6]ITU-T G.703-1993,Physical/electrical characteristics of digital interfaces[S].
  • 8[7]P.-K.Lau,and T.Makino.Effects of Laser Diode Parameters on Power Penalty in 10 Gb/s Optical Fiber Transmission Systems[J].Journal of Lightwave Technology,1997,vol.15:1663-1668.
  • 9[8]Jensen T.10Gbit/s optical transmission technology[J].accepted by IEEE Proc,1995,vol.13:856-879.
  • 10[9]Rolf H.10 GB/s Transmission and Beyond[J].accepted by IEEE Proc,1993,vol.11:1558-1572.

引证文献3

光通信技术
2000年 第3期

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