Fiber Residual Stress Effects on Modal Gain Equalization of Few-Mode Fiber Amplifier

Li, Pei; Chang, Yanbiao; Wang, Jianshuai; Zheng, Jingjing; Ning, Tigang; Li, Jing; Bai, Bing; Shen, Lei; Zhong, Li

doi:10.3390/s23052574

Cited by 4 publications

(1 citation statement)

References 24 publications

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“…EDFA models are simple to develop and provide a quick and accurate estimation of optical system behavior [8]. The modal gain equalization and signal transmission stability of fewmode fiber amplifiers improve with increasing erbium doping concentrations [9]. A long-haul optical communication system would benefit from the EDFA's practical implementation [10].…”

Section: Introductionmentioning

confidence: 99%

Improving Communication Performance Through Fiber Amplifier EDFA

S. Zynal,

Thaer Lateef,

Abdulazeez Jebur

et al. 2024

KJCS

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Due to the development of fast and extensive data communication methods, typical erbium-doped fiber amplifiers (EDFA) have recently gained much interest. The main advantage of EDFA is its ability to build a system with a broad band. However, it is evident from documented works that using EDFA results in a gain increase. Nevertheless, the expense, complexity, and subpar effectiveness of these procedures made them ineffective. In this work, the performance of an 8-channel communication system for different distances of 80, 120, and 180 km is enhanced and maximized by applying a simulation model of long distance based on EDFA to reduce the effects of dispersion correction. The effect of the EDFA on three channels was investigated along the three distances by Q Factor and BER. The proposed system achieved good results in enhancing signals due to EDFA. The results of the extraction demonstrate the system's capacity to send large data rates to 180 km with a bit error rate of less than 1×10-14. EDFA shows the best performance in gain differences. The simulation setup and implementation of the work aim to improve communication performance and propose a suitable solution to enhance the Bit Error Rate (BER).

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Section: Introductionmentioning

confidence: 99%

Improving Communication Performance Through Fiber Amplifier EDFA

S. Zynal,

Thaer Lateef,

Abdulazeez Jebur

et al. 2024

KJCS

View full text Add to dashboard Cite

show abstract

Modeling optimization design and amplification characteristics of O-band irregular Bragg bismuth-doped fiber amplifier

Wang,

Pei,

Zheng

et al. 2024

Results in Physics

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Mode coupling in FM-EDFAs caused by fiber bending: theory and experiments

Wang,

Wu,

Jiang

et al. 2023

Appl. Opt.

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Refractive index perturbation caused by erbium-doped fiber (EDF) bending is inevitable in the fabrication of erbium-doped fiber amplifiers (EDFAs). The resulting mode coupling might bring about the deviation of theoretical results from experimental data. We present a theoretical model of FM-EDFAs with mode coupling due to fiber bending and carry out a proof-of-concept experiment by a 3.2-m-long EDF stretcher. Our experiments show that the fluctuation of modal gain due to fiber bending is about 1.5 dB for LP01 and LP11e modes, and about 2.5 dB for LP11o mode, and the theoretical model is more useful for the FM-EDFA design in the presence of fiber bending.

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Fiber Residual Stress Effects on Modal Gain Equalization of Few-Mode Fiber Amplifier

Cited by 4 publications

References 24 publications

Improving Communication Performance Through Fiber Amplifier EDFA

Improving Communication Performance Through Fiber Amplifier EDFA

Modeling optimization design and amplification characteristics of O-band irregular Bragg bismuth-doped fiber amplifier

Mode coupling in FM-EDFAs caused by fiber bending: theory and experiments

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