Performance limitations due to combined influence of ASE and Raman amplifier induced crosstalk in a WDM system with direct detection receiver

机译：由于ASE和拉曼放大器在具有直接检测接收机的WDM系统中串扰的组合影响因作绩效限制

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An analytical approach is presented to evaluate the bit error rate performance of a wavelength division multiplexing (WDM) fiber-optic transmission link with distributed Raman amplifier taking into account the combined effect of Amplified Spontaneous Emission (ASE) and Raman scattering induced crosstalk for direct detection receiver. The analysis is developed to find the photodetector output due to Raman scattering and ASE noise. The signal to noise plus crosstalk ratio at the receiver output is derived. The bit error rate (BER) performance results are numerically evaluated for 10 Gbps and different fiber length and WDM channels. It is found that at a BER of 10-9, the allowable transmission distance is limited by ASE and crosstalk due to Raman scattering. The maximum allowable pump power is 1 mW, 3 mW, 4 mW, 6 mW for channel bandwidth 100 GHz, 50 GHz, 25 GHz and 12.5 GHz respectively for fiber length of 50 Km at BER 10-9. The effect of ASE is more prominent at higher pump power

机译：提出了一种分析方法，以评估波分复用（WDM）光纤传输链路的误码率性能与分布式拉曼放大器考虑到扩增的自发发射（ASE）和拉曼散射诱导串扰进行直接检测的组合效果接收者。开发了分析以找到由于拉曼散射和ASE噪声引起的光电探测器输出。导出了接收器输出处的噪声加上串扰比的信号。误码率（BER）性能结果在数值上评估了10 Gbps和不同的光纤长度和WDM信道。发现，在10-9的BER中，允许的传输距离受到拉曼散射引起的ASE和串扰的限制。最大允许泵功率为1 MW，3 MW，4 MW，6 MW，用于通道带宽100 GHz，50 GHz，25 GHz和12.5 GHz，用于10-9的纤维长度为50公里。 ASE对较高泵浦的影响更加突出

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《International Conference on Electrical and Computer Engineering》|2016年|609p|共4页
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F.H. Tithi; S. P. Majumder;
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中图分类计算技术、计算机技术;
关键词
Wavelength division multiplexing; Optical fiber amplifiers; Bandwidth; Bit error rate; Stimulated emission; Crosstalk; Receivers;

机译：波分复用;光纤放大器;带宽;钻头错误率;刺激的发射;串扰;接收器;

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专利

1. Combined Effect of ASE Noise and SRS Induced Crosstalk on the BER Performance of a Single Span WDM System with Raman Amplifier Using Heterodyne Coherent Detection [J] . F.H. Tithi, S.P. Majumder Journal of Optical Communications . 2020,第4期

机译：ASE噪声和SRS诱导串扰对使用外差相相干检测的拉曼放大器对单跨WDM系统BER性能的综合影响
2. Bit Error Rate Performance Limitations Due to Raman Amplifier Induced Crosstalk in a WDM Transmission System [J] . F. H. Tithi, S. P. Majumder Journal of Optical Communications . 2017,第1期

机译：WDM传输系统中由于拉曼放大器引起的串扰而导致的误码率性能限制
3. High-density WDM systems using post-transmitter fibre Raman amplifier to relax Raman crosstalk limitation [J] . Kao M.-S., Wu J. Electronics Letters . 1989,第21期

机译：高密度WDM系统使用发射器后光纤拉曼放大器来缓解拉曼串扰限制
4. Performance limitations due to combined influence of ASE and Raman amplifier induced crosstalk in a WDM system with direct detection receiver [C] . F.H. Tithi, S. P. Majumder International Conference on Electrical and Computer Engineering . 2016

机译：在具有直接检测接收器的WDM系统中，由于ASE和拉曼放大器引起的串扰的综合影响，性能受到限制
5. Signal impairment mitigation using mid-span spectral inversion (MSSI) and MSSI performance improvement using distributed raman amplification in WDM systems [D] . Yangzi, Liu. 2010

机译：在WDM系统中使用中跨频谱反转（MSSI）减轻信号损伤，并通过分布式拉曼放大提高MSSI性能
6. Special Section on Pioneers in Medical Imaging: Honoring the Memory of Robert F. Wagner: Nonparametric estimation receiver operating characteristic analysis for performance evaluation on combined detection and estimation tasks [O] . Adam Wunderlich, Bart Goossens 2014

机译：医学成像先驱者特别节：纪念罗伯特·瓦格纳（Robert F. Wagner）：非参数估计接收器的工作特性分析用于组合检测和估计任务的性能评估
7. Performance Evaluation and Enhancement of M-Ary DPPM Modulation for WDM-PON/FSO Systems Impaired by Atmospheric Turbulence, Interchannel Crosstalk, and ASE Noise [O] . Ebrahim E. Elsayed, Bedir B. Yousif 2020

机译：WDM-PON / FSO系统M-ARY DPPM调制的性能评估和增强由大气湍流，Interchunnel串扰和ASE噪声损害的WDM-PON / FSO系统

Performance limitations due to combined influence of ASE and Raman amplifier induced crosstalk in a WDM system with direct detection receiver

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