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

Q3 Engineering Journal of Optical Communications Pub Date : 2023-10-26 DOI:10.1515/joc-2023-0269
Anitha Gopalan, Chandran Ramesh Kumar, Sreeja Vijay, Merlin Livingston Louis Mary, Thankamony Devakhi Subha, Parimala Arumugam, Wafaa Fahim Hossam Zain
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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.
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多模抛物折射率光纤与时空垂直腔面发射激光源集成用于光纤系统改进
摘要:本研究将多模抛物线折射率光纤与时空VCSEL源集成,用于光纤系统的改进。平均径向强度与光纤半径变化的关系在折射率差为0.1%时得到澄清。在光纤折射率阶跃变化的情况下,证明了最大基带Q因子形式。根据VCSEL二极管偏置电流的变化,演示了最大基带Q因子形式的变化。最大基带Q因子形式随光纤芯半径的变化而变化。根据光纤包层厚度的变化,模拟了最大基带Q因子形式。多模光纤计算报告在波长1550 nm处为光源(Pol。X = VCSEL LP[0,1])。研究了折射率差阶跃为0.1%的抛物折射率多模光纤的最大基带形成功率随时间的变化规律。在折射率差阶跃为0.1%的抛物折射率多模光纤后,对波长进行了最大光基带功率形式的论证。模拟了折射率为0.1%的空间APD光电探测器接收机的最大基Q波段形状因子。在折射率差为0.1%的光纤中,光纤基带在x和d方向上的模形强度得到了证明。研究并模拟了光纤基带环形磁通形式随光纤半径的变化规律。
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来源期刊
Journal of Optical Communications
Journal of Optical Communications Engineering-Electrical and Electronic Engineering
CiteScore
2.90
自引率
0.00%
发文量
86
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
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