Study of a novel high-speed all-optical orthogonal modulation scheme based on frequency-shift keying and intensity-modulated labeling

Minghao Li; Nan Chi; Wei HongWei LiHong LiuDexiu Huang

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Study of a novel high-speed all-optical orthogonal modulation scheme based on frequency-shift keying and intensity-modulated labeling

机译：一种基于频移键控和强度调制标注的高速全光正交调制方案研究

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摘要

We propose and demonstrate a novel orthogonal optical labeling scheme based on 40-Gbit/s optical frequency-shift keying (FSK) payload and 2.5-Gbit/s intensity-modulated (IM) labeling. Using the technology of carrier-suppressed modulation and conversion of differential phase-shift keying to IM, only one light source is needed to generate the optical FSK signal. The system performance, including range of IM modulation depth, bit error ratio, and dispersion limitation, is carefully investigated by numerical simulation. With IM modulation depth of 0.4, the 40 Gbit/s FSK payload and 2.5-Gb/s IM label are transmitted over a 50-km standard single mode fiber (SMF) with 0.87 and 0.92 dB penalty and show immunity to input power range upto 11 and 15 dB, respectively. Optimal methods to improve the system performance are also proposed and discussed. After optimization, the IM modulation depth can be reduced to 0.2.

机译：我们提出并演示了一种基于40 Gbit/s光频移键控（FSK）有效载荷和2.5 Gbit/s调强（IM）标记的新型正交光学标注方案。使用载波抑制调制技术，并将差分相移键控转换为IM，只需一个光源即可产生光纤FSK信号。通过数值仿真仔细研究了系统性能，包括IM调制深度范围、误码率和色散限制。IM 调制深度为 0.4 时，40 Gbit/s FSK 有效载荷和 2.5 Gb/s IM 标签通过 50 km 标准单模光纤（SMF）传输，损失分别为 0.87 dB 和 0.92 dB，对输入功率范围的抗扰度分别高达 11 dB 和 15 dB。还提出并讨论了提高系统性能的最优方法。优化后，IM调制深度可降低到0.2。

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来源
《Optical Engineering》 |2008年第9期|095002-1-095002-7-0|共7页
作者
Minghao Li; Nan Chi; Wei HongWei LiHong LiuDexiu Huang;
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作者单位

Huazhong University of Science and Technology, School of Optoelectronic Science and Engineering, Wuhan National Laboratory for Optoelectronics, Wuhan 430074, China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);
原文格式 PDF
正文语种英语
中图分类光学仪器;
关键词
frequency-shift keying with intensity modulation (FSK/IM); orthogonal modulation; carrier suppression; delay interferometer (DI);

机译：带强度调制的频移键控（FSK/IM）;正交调制;载流子抑制;延迟干涉仪（DI）;

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Study of a novel high-speed all-optical orthogonal modulation scheme based on frequency-shift keying and intensity-modulated labeling

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