Doctoral Thesis
DOI
https://doi.org/10.11606/T.18.2004.tde-07102015-152224
Document
Author
Full name
Carlos Alberto de Francisco
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Carlos, 2004
Supervisor
Committee
Romero, Murilo Araújo (President)
Barros, Miriam Regina Xavier de
Borges, Ben Hur Viana
Kalinowski, Hypolito José
Messaddeq, Younes
Barros, Miriam Regina Xavier de
Borges, Ben Hur Viana
Kalinowski, Hypolito José
Messaddeq, Younes
Title in Portuguese
Fibras ópticas microestruturadas: modelagem e aplicações
Keywords in Portuguese
Compensação de dispersão
FDTD
Fibras microestruturadas
SOR
FDTD
Fibras microestruturadas
SOR
Abstract in Portuguese
Este trabalho tem por objetivo a modelagem numérica das fibras microestruturadas e a proposição de dispositivos inovadores com base nos modelos numéricos construídos. Primeiramente, são implementados dois formalismos distintos: o FDTD (do inglês Finite Diference Time Domain) para a geração dos diagramas de bandas dos cristais fotônicos e o SOR (do inglês Successive Over Relaxation) para a análise modal das fibras. A partir destes modelos, são propostas três aplicações distintas que utilizam as propriedades inovadoras das fibras microestruturadas, a saber: compensador de dispersão a fibra com capacidade de compensar um enlace óptico com cerca de vinte vezes seu comprimento, amplificador Raman com alto ganho óptico e isolador óptico a fibra microestruturada.
Title in English
Microstructured optical fibers: modeling and applications
Keywords in English
Dispersion compensation
FDTD
Microstructured fibers
SOR
FDTD
Microstructured fibers
SOR
Abstract in English
The goal of this work is the numerical modeling of microstructured optical fibers and the proposition of novel applications using the model developed. First, two distinct formalisms are implemented, the Finite Difference Time Domain Method (FDTD) to generate the photonic crystal band diagrams and the Successive Over Relaxation method (SOR) to carry out modal analysis on the microstructured optical fibers. By means of these models, three applications are investigated: high performance dispersion compensation fiber, high gain Raman amplifier and microstructured optical fiber isolator.
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Publishing Date
2015-10-07
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