Spatial optical transceiver system–based key solution for high data rates in measured index multimode optical fibers for indoor applications

Author:

Eid Mahmoud M. A.1,Zaki Rashed Ahmed Nabih2,Hosen Md. Sazib3,Paul Bikash Kumar45,Ahmed Kawsar5ORCID

Affiliation:

1. Department of Electrical Engineering , College of Engineering, Taif University , Taif , Kingdom of Saudi Arabia

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

3. Jatio Mohila Sangstha, Ministry of Women and Children Affairs , Dhaka , 1000 , Bangladesh

4. Department of Software Engineering , Daffodil International University , Sukrabad, Dhanmondi , Dhaka , Bangladesh

5. Group of Bio-photomatiχ, Department of Information and Communication Technology (ICT) , Mawlana Bhashani Science and Technology University (MBSTU) , Santosh , Tangail , 1902 , Bangladesh

Abstract

Abstract This study has simulated the spatial optical transceiver system based on measured index multimode optical plastic fibers channel with 1 Tb/s in 1.5 km distance. These plastic optical fibers are simply step index polycarbonate, step index polystyrene, step index polymethylmethacrylate, graded index polymethylmethacrylate and graded index cyclic transparent optical fiber (GI-CYTOP). Maximum Q-factor, optical signal power at optical fiber channel, receiver sensitivity, and coupling coefficient for sample of modes are measured based on GI-CYTOP fiber for the comparison between the previous model and the proposed model. This study clarified the enhancement of both maximum Q-factor and receiver sensitivity even though at high signal losses. The optimized Q-factor and receiver sensitivity are obtained for various plastic optical fiber channels. Power intensity level of dominant mode–based GI-CYTOP fiber channel is measured. The proposed model has presented better performance based on GI-CYTOP fiber channel in maximum Q-factor, which is within the percentage ratio ranging from 45.65 to 53.26%, optical signal power is within the percentage ratio ranging from 32.87 to 44.77%, and receiver sensitivity is within the percentage ratio ranging from 6.3 to 12.26% than the previous model at transmission distance ranges from 500 to 1500 m and bit rate of 2.5 Gb/s. GI-CYTOP fiber clarified better performance in maximum Q-factor and receiver sensitivity response better than other plastic optical fibers channels.

Publisher

Walter de Gruyter GmbH

Subject

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

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