Multimode parabolic index fiber integrated with spatiotemporal vertical cavity surface emitting laser sources for optical fiber system improvement-Reference-Cited by-同舟云学术

Multimode parabolic index fiber integrated with spatiotemporal vertical cavity surface emitting laser sources for optical fiber system improvement

Published:2023-10-26 Issue:0 Volume:0 Page:
ISSN:0173-4911
Container-title:Journal of Optical Communications
language:en
Short-container-title:

Author:

Gopalan Anitha¹,Kumar Chandran Ramesh²,Vijay Sreeja³,Mary Merlin Livingston Louis⁴,Subha Thankamony Devakhi⁵,Arumugam Parimala⁶,Hossam Zain Wafaa Fahim⁷

Affiliation:

1. Department of ECE , Saveetha School of Engineering, SIMATS , Chennai , Tamilnadu , India

2. Department of Electronics and Communication Engineering , Panimalar Engineering College , Chennai , Tamilnadu , India

3. Department of ECE , S.A. Engineering College , Chennai , Tamil Nadu , India

4. Department of ECE , Jeppiaar Institute of Technology , Sriperumbudur , Chennai , Tamilnadu , India

5. Department of ECE , R.M.K. Engineering College , Chennai , Tamilnadu , India

6. Department of ECE , Sree Sastha Institute of Engineering and Technology , Chennai , Tamilnadu , India

7. Sakrah Institute of Communication Technology , Sinia , Egypt

Abstract

Abstract This study has demonstrated the multimode parabolic index fibers integrated with spatiotemporal VCSEL sources for the optical fiber system improvement. Average radial intensity is clarified against fiber radius variations with 0.1 % refractive difference index step. The Max base band Q factor form is demonstrated against the fiber refractive index step variations. The Max base band Q factor form variations are demonstrated against VCSEL diode bias current variations. The Max base band Q factor form variations are clarified against the fiber core radius variations. The Max base band Q factor form is simulated against the fiber cladding thickness variations. Multimode fiber calculation report at the wavelength 1550 nm for the light source (Pol. X = VCSEL LP [0,1]) is reported. The Max lighted base optical band form power is clarified versus time after parabolic index multimode fiber with 0.1 % refractive difference index step. The Max optical lighted base band power form is demonstrated against wavelength after parabolic index multimode fiber with 0.1 % refractive difference index step. The Max base Q band form factor is simulated after spatial APD photodetector receiver with 0.1 % refractive difference index step. The fiber base band mode form intensity in x and d directions is demonstrated within the fiber with 0.1 % refractive difference index step. The fiber base band encircled flux form is studied and simulated versus fiber radius variations with 0.1 % refractive difference index step.

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-2023-0269/pdf

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