Recent progress on S-band fiber amplifiers

Proceedings of 2003 5th International Conference on Transparent Optical Networks, 2003. Pub Date : 2003-06-29 DOI:10.1109/ICTON.2003.1264623

R. Caspary, U.B. Unrau, W. Kowalsky

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引用次数: 11

Abstract

The internet boom in the 1990's led to an exponential increase of the bandwidth demands on optical long-haul transmission links and the introduction of WDM and DWDM systems. However, the gain bandwidth of usual fiber amplifiers is limited to a maximum of 80 nm in the C- and L-band. Todays optical senders and receivers are limited to a spectral efficiency of not more than 1 bit/s/Hz which results in a total capacity of about 10 Tbit/s in the C- and L-bands. Meanwhile the crash of the telecom market damped the bandwidth growth somewhat, but it is still an important task to work on solutions for transmission systems at extremely high bitrates beyond 10 Tbit/s. One of these solutions is the use of larger parts of the low attenuation window of the transmission fibers. It seems to be consensus that the first step towards this direction will be the S- and S/sup +/-band at 1450-1530 nm. Here we will give an overview of the current status and new developments in the field of S-band fiber amplifier technologies. As usual, the term S-band will be used for Sand S/sup +/-band in this work.

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s波段光纤放大器的研究进展

20世纪90年代的互联网热潮导致光长途传输链路的带宽需求呈指数级增长，并引入了波分复用和DWDM系统。然而，通常光纤放大器的增益带宽在C和l波段被限制在最大80nm。今天的光发送器和接收器被限制在不超过1比特/秒/赫兹的频谱效率，这导致C和l波段的总容量约为10太比特/秒。与此同时，电信市场的崩溃在一定程度上抑制了带宽的增长，但为超过10tbit /s的极高比特率的传输系统提供解决方案仍然是一个重要的任务。这些解决方案之一是使用传输光纤的低衰减窗口的较大部分。似乎大家一致认为，朝这个方向迈出的第一步将是1450-1530 nm的S-和S/sup +/-波段。本文将对s波段光纤放大器技术的现状和新发展进行综述。像往常一样，在这项工作中，将使用S波段一词来表示沙子S/sup +/-波段。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of 2003 5th International Conference on Transparent Optical Networks, 2003.

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