Efficient employment of Yb doped multi-mode fiber amplifiers based pumped laser with advanced light sources in high speed modulated optical communication systems

Q3 Engineering Journal of Optical Communications Pub Date : 2023-09-05 DOI:10.1515/joc-2023-0206

Mani Tamilselvi, Ata Kishore Kumar, Dhanalakshmi Ganapathy, Perumal Kalpana Devi, Thandaiah Prabu Ramachandran, Ahmed Ali Zahran, Vasimalla Yesudasu

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Abstract

Abstract In this work, efficient employment of Yb doped multi-mode fiber amplifiers based pumped laser is simulated with advanced light sources in high speed modulated optical communication systems. The total lighted power through measured index multimode fiber based different base band modulation voltages dual drive MZM measured are clarified. The 3D graph of the mode field intensity distribution through measure index multimode fiber is simulated. Total electrical base ban power form through PIN photo-detector based various modulation voltages Dual drive MZM measured are demonstrated. The max Q form factor-min base band BER values through PIN photo-detector based different modulation voltages dual drive MZM measured are also simulated. The electrical base signal form noise ratio varies is simulated and clarified with modulation voltage based dual drive MZM measure varies. The max Q form base band Factor is demonstrated with modulation voltage based dual drive MZM measure varies. Total lighted base power form varies are clarified with modulation voltage based dual drive MZM measure varies. The different measured index multimode fiber characteristics based spatial VCSEL are also clarified and demonstrated.

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掺镱多模光纤放大器与先进光源泵浦激光器在高速调制光通信系统中的有效应用

摘要本文模拟了基于掺镱多模光纤放大器的泵浦激光器在高速调制光通信系统中的高效应用。阐明了基于不同基带调制电压双驱动的被测折射率多模光纤的总发光功率。模拟了测量折射率多模光纤的三维模场强度分布图。演示了基于各种调制电压的PIN光电探测器的总电基禁功率形式，测量了双驱动MZM。仿真了基于不同调制电压双驱动MZM的PIN光探测器测得的最大Q形因子-最小基带误码率值。仿真并阐明了基于调制电压的双驱动MZM测量变化的电基信号形式噪声比变化。基于调制电压的双驱动MZM测量变化证明了最大Q形式基带因子。总光基极功率形式的变化与基于调制电压的双驱动MZM测度的变化澄清。对基于空间VCSEL的不同测量折射率多模光纤特性进行了阐述和论证。

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来源期刊

Journal of Optical Communications Engineering-Electrical and Electronic Engineering

CiteScore

2.90

自引率

0.00%

发文量

期刊介绍： This is the journal for all scientists working in optical communications. Journal of Optical Communications was the first international publication covering all fields of optical communications with guided waves. It is the aim of the journal to serve all scientists engaged in optical communications as a comprehensive journal tailored to their needs and as a forum for their publications. The journal focuses on the main fields in optical communications