The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
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The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Cet article présente une revue historique des technologies de fibres depuis les années 1970 jusqu'à aujourd'hui, axée sur la conception, les caractéristiques de transmission et l'assurance de la fiabilité des fibres optiques en silice. La discussion se fait en divisant la période en deux phases ; la première phase s'est terminée vers la fin des années 1980 et la seconde a commencé à la même époque. Quant à la première phase, nous présentons des conceptions de fibres multimodes et de fibres monomodes à gradient d'indice, ainsi que le développement de fibres à dispersion décalée. L'assurance de la fiabilité mécanique et les phénomènes d'augmentation des pertes dus à l'hydrogène sont également décrits. Le développement d'un amplificateur à fibre optique a déclenché le démarrage de la deuxième phase. En raison de l'introduction des systèmes de transmission WDM ainsi que de la demande de transmission à haut débit, la dispersion et la non-linéarité des fibres sont devenues des facteurs indispensables à prendre en compte pour la conception du système et l'évaluation des performances. Nous discutons de nouvelles fibres décalées à dispersion non nulle et de fibres à compensation de dispersion, développées pour répondre aux exigences des systèmes de transmission WDM longue distance et à haut débit. Enfin, des discussions sont engagées sur les futurs éléments de recherche et développement, nécessaires à la réalisation des futurs réseaux photoniques.
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Naoya UCHIDA, "Development and Future Prospect of Optical Fiber Technologies" in IEICE TRANSACTIONS on Electronics,
vol. E85-C, no. 4, pp. 868-880, April 2002, doi: .
Abstract: This paper presents a historical review of fiber technologies from the 1970s till now, focused on design, transmission characteristics, and reliability assurance of silica optical fibers. Discussion is made by dividing the period into two phases; the first phase closing nearly at the end of the 1980s and the second one starting at the same time. As for the first phase, we present designs of graded-index multimode fiber and single-mode fiber, and development of dispersion shifted fiber. Mechanical reliability assurance and loss increase phenomena due to hydrogen are also described. Development of an optical fiber amplifier triggered the start of the second phase. Due to the introduction of WDM transmission systems as well as demand on high bit-rate transmission, fiber dispersion and nonlinearity have become indispensable factors to be taken into consideration for system design and performance evaluation. We discuss novel non-zero dispersion shifted fibers and dispersion compensating fibers, developed to meet the requirements for long distance and high bit-rate WDM transmission systems. Finally, discussions are made on the future research and development items, which are necessary to realize anticipating photonic networks.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/e85-c_4_868/_p
Copier
@ARTICLE{e85-c_4_868,
author={Naoya UCHIDA, },
journal={IEICE TRANSACTIONS on Electronics},
title={Development and Future Prospect of Optical Fiber Technologies},
year={2002},
volume={E85-C},
number={4},
pages={868-880},
abstract={This paper presents a historical review of fiber technologies from the 1970s till now, focused on design, transmission characteristics, and reliability assurance of silica optical fibers. Discussion is made by dividing the period into two phases; the first phase closing nearly at the end of the 1980s and the second one starting at the same time. As for the first phase, we present designs of graded-index multimode fiber and single-mode fiber, and development of dispersion shifted fiber. Mechanical reliability assurance and loss increase phenomena due to hydrogen are also described. Development of an optical fiber amplifier triggered the start of the second phase. Due to the introduction of WDM transmission systems as well as demand on high bit-rate transmission, fiber dispersion and nonlinearity have become indispensable factors to be taken into consideration for system design and performance evaluation. We discuss novel non-zero dispersion shifted fibers and dispersion compensating fibers, developed to meet the requirements for long distance and high bit-rate WDM transmission systems. Finally, discussions are made on the future research and development items, which are necessary to realize anticipating photonic networks.},
keywords={},
doi={},
ISSN={},
month={April},}
Copier
TY - JOUR
TI - Development and Future Prospect of Optical Fiber Technologies
T2 - IEICE TRANSACTIONS on Electronics
SP - 868
EP - 880
AU - Naoya UCHIDA
PY - 2002
DO -
JO - IEICE TRANSACTIONS on Electronics
SN -
VL - E85-C
IS - 4
JA - IEICE TRANSACTIONS on Electronics
Y1 - April 2002
AB - This paper presents a historical review of fiber technologies from the 1970s till now, focused on design, transmission characteristics, and reliability assurance of silica optical fibers. Discussion is made by dividing the period into two phases; the first phase closing nearly at the end of the 1980s and the second one starting at the same time. As for the first phase, we present designs of graded-index multimode fiber and single-mode fiber, and development of dispersion shifted fiber. Mechanical reliability assurance and loss increase phenomena due to hydrogen are also described. Development of an optical fiber amplifier triggered the start of the second phase. Due to the introduction of WDM transmission systems as well as demand on high bit-rate transmission, fiber dispersion and nonlinearity have become indispensable factors to be taken into consideration for system design and performance evaluation. We discuss novel non-zero dispersion shifted fibers and dispersion compensating fibers, developed to meet the requirements for long distance and high bit-rate WDM transmission systems. Finally, discussions are made on the future research and development items, which are necessary to realize anticipating photonic networks.
ER -