Conventional/linear/Lorentzian material gain semiconductor optical amplifiers performance signature with four wave mixing (FWM) nonlinearity in optical fiber communication systems-Reference-Cited by-同舟云学术

Conventional/linear/Lorentzian material gain semiconductor optical amplifiers performance signature with four wave mixing (FWM) nonlinearity in optical fiber communication systems

Published:2022-09-23 Issue:0 Volume:0 Page:
ISSN:2191-6322
Container-title:Journal of Optical Communications
language:en
Short-container-title:

Author:

Smirani Lassaad K.¹²,Rashed Ahmed Nabih Zaki³^ORCID,Ahammad S. K. Hasane⁴,Hossain Md. Amzad⁵⁶,Daher Malek G.⁷⁸,Fahmy Eslam³

Affiliation:

1. Elearning Deanship and Distance Education , Umm Al-Qura University , Mecca 24381 , Saudi Arabia

2. InnoV’COM Lab , University of Carthage , Carthage , Tunisia

3. Electronics and Electrical Communications Engineering Department, Faculty of Electronic Engineering , Menoufia University , Menouf 32951 , Egypt

4. Department of ECE , Koneru Lakshmaiah Education Foundation , Vaddeswaram 522302 , Andhra Pradesh , India

5. Institute of Theoretical Electrical Engineering, Faculty of Electrical Engineering and Information Technology , Ruhr University Bochum , Bochum 44801 , Germany

6. Department of Electrical and Electronic Engineering , Jashore University of Science and Technology , Jashore 7408 , Bangladesh

7. Physics Department , Islamic University of Gaza , P.O. Box 108 , Gaza , Palestine

8. School of Physics , Universiti Sains Malaysia , Penang 11800 , Malaysia

Abstract

Abstract This study demonstrates the FWM nonlinearity effects on fiber systems based on conventional/linear/Lorentzian material gain wide band traveling wave semiconductor optical amplifiers (WBTWSOAs) at data rates of 10 Gbps. Max signal power (MSP) and noise power (NP) levels are illustrated versus time and SW after WDM multiplexer. The MSP and min NP are clarified against time and SW based conventional, linear, Lorentzian material gain WBTWSOAs. The total optical power after WDM multiplexer, and the total optical power based conventional, linear, Lorentzian material gain WBTWSOAs are measured. Max Q versus time after receiver based WDM multiplexer, and max Q versus time after receiver based conventional, linear, Lorentzian material gain WBTWSOAs are reported clearly in this study. Besides the max Q against CS is studied with/without FWM effects. Nonlinear coefficient, conversion efficiency is analyzed clearly against fiber length without/with FWM effects.

Publisher

Walter de Gruyter GmbH

Subject

Electrical and Electronic Engineering,Condensed Matter Physics,Atomic and Molecular Physics, and Optics

Link

https://www.degruyter.com/document/doi/10.1515/joc-2022-0147/pdf

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