Unrepeated WDM Transmission Systems Based on Advanced First-Order and Higher Order Raman-Copumping Technologies

Faralli S.; Bolognini G.; Andrade M. A.; Di Pasquale F.

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Unrepeated WDM Transmission Systems Based on Advanced First-Order and Higher Order Raman-Copumping Technologies

机译：基于高级一阶和高阶拉曼泵浦技术的无重复WDM传输系统

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摘要

We compare standard fiber Raman laser and new high-power- and low relative-intensity-noise (RIN)-copumping technologies for long-span unrepeated wavelength-division-multiplexing (WDM) transmission systems. We show that, by using enhanced forward-error-correction techniques and by optimizing the transmission-system parameters in terms of signal power per channel, dispersion map, and copropagating on– off Raman gain, both copumping technologies allow successful transmission of 8 $times$ 10-Gb/s WDM channels over more than 70 dB of standard single-mode fiber. However, transmission experiments point out that only the newly proposed high-power and low-RIN lasers can guarantee realistic system margins and can potentially provide further span-reach enhancement when used in optimized higher order copumping configurations.

机译：我们将标准光纤拉曼激光器与新的高功率和低相对强度噪声（RIN）吸收技术用于大跨度非重复波分复用（WDM）传输系统。我们表明，通过使用增强的前向纠错技术，以及通过优化传输系统参数（每通道的信号功率，色散图以及共传播拉曼增益），两种共注入技术均可以成功传输8次超过70 dB的标准单模光纤提供$ 10-Gb / s WDM通道。但是，传输实验指出，只有当最新提出的高功率和低RIN激光器用于优化的高阶共注入配置时，才能保证现实的系统裕度，并且有可能提供进一步的跨距扩展。

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来源
《Journal of Lightwave Technology》 |2007年第11期|p.3519-3527|共9页
作者
Faralli S.; Bolognini G.; Andrade M. A.; Di Pasquale F.;
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正文语种 eng
中图分类无线电电子学、电信技术;
关键词
Optical communication systems; Raman amplifiers; Rayleigh scattering; relative intensity noise;

机译：光通信系统;拉曼放大器;瑞利散射;相对强度噪声;

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1. Bidirectional higher order cascaded Raman amplification benefits for 10-Gb/s WDM unrepeated transmission systems [J] . Faralli S., Bolognini G., Sacchi G., Journal of Lightwave Technology . 2005,第8期

机译：双向高阶级联拉曼放大对10 Gb / s WDM非重复传输系统的好处
2. Study on Capacity Upgrade of JIH (Japan Information Highway) Submarine Cable System Using 40 Gbit/s-Based WDM Transmission Technologies [J] . Keiji TANAKA, Itsuro MORITA, Noboru YOSHIKANE, IEICE Transactions on Communications . 2004,第6期

机译：基于40 Gbit / s的WDM传输技术的JIH（日本信息高速公路）海底电缆系统容量升级的研究
3. WDM Transmission Technologies in the FSA-WDM System [J] . Makoto Murakami, Toshiya Matsuda, Yasuhiko Tada NTT R&D . 2001,第4期

机译：FSA-WDM系统中的WDM传输技术
4. Advanced first- and second-order Raman co-pumping schemes for improved performance in unrepeated WDM transmission systems [C] . Faralli, S., Bolognini, Optical Communications Proceedings, 2006 European Conference on NO PERMISSSIONS . 2006

机译：先进的一阶和二阶拉曼共泵方案，可提高未重复WDM传输系统的性能
5. An intelligent load shedding relay with advanced knowledge base technology for power system protection. [D] . Shih, Lian-Juh. 1990

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7. Bidirectional higher order cascaded Raman amplification benefits for 10-Gb/s WDM unrepeated transmission systems [O] . Stefano Faralli, Gabriele Bolognini, Giovanni Sacchi, 2005

机译：双向高阶级联拉曼放大有利于10-Gb / s WDm无重复传输系统
8. Status of the Morgantown Energy Technology Center's Particulate Cleanup Program -- enabling technology for advanced coal-based power systems [R] . Dennis, R. A. 1994

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Unrepeated WDM Transmission Systems Based on Advanced First-Order and Higher Order Raman-Copumping Technologies

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