New Silica Laser-Optimized Multimode Optical Fibers with Extremely Enlarged 100-μm Core Diameter for Gigabit Onboard and Industrial Networks

New Silica Laser-Optimized Multimode Optical Fibers with Extremely Enlarged 100-μm Core Diameter for Gigabit Onboard and Industrial Networks

We present new type of silica graded index laser-optimized multimode optical fibers (LOMF) with extremely enlarged core diameter up to 100 μm and “typical” “telecommunication” cladding diameter 125 μm. This optical fiber was designed for hars...

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Main Authors: Vladimir A. Burdin, Michael V. Dashkov, Vladimir V. Demidov, Konstantin V. Dukelskii, Alexander S. Evtushenko, Artem A. Kuznetsov, Alexandra S. Matrosova, Oleg G. Morozov, Egishe V. Ter-Nersesyants, Alexander A. Vasilets, Elena S. Zaitseva, Alexander E. Zhukov, Anton V. Bourdine
Format: Article
Language:English
Published: MDPI AG 2020-03-01
Series:Fibers
Subjects:
laser-based gigabit data transmission
large core multimode optical fiber
few-mode regime
higher-order modes
selected guided modes
differential mode delay
mode coupling
on-board cable systems
industrial networks
short-range optical networks
Online Access:https://www.mdpi.com/2079-6439/8/3/18
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spelling doaj-74bc023d0be04df3822e4b716e0ea7122020-11-25T02:28:41ZengMDPI AGFibers2079-64392020-03-01831810.3390/fib8030018fib8030018New Silica Laser-Optimized Multimode Optical Fibers with Extremely Enlarged 100-μm Core Diameter for Gigabit Onboard and Industrial NetworksVladimir A. Burdin0Michael V. Dashkov1Vladimir V. Demidov2Konstantin V. Dukelskii3Alexander S. Evtushenko4Artem A. Kuznetsov5Alexandra S. Matrosova6Oleg G. Morozov7Egishe V. Ter-Nersesyants8Alexander A. Vasilets9Elena S. Zaitseva10Alexander E. Zhukov11Anton V. Bourdine12Department of Communication Lines, Povozhskiy State University of Telecommunications and Informatics, 23, Lev Tolstoy street, Samara 443010, RussiaDepartment of Communication Lines, Povozhskiy State University of Telecommunications and Informatics, 23, Lev Tolstoy street, Samara 443010, RussiaResearch and Manufacturing Complex “Fiber”, JSC “Scientific Production Association State Optical Institute Named after Vavilov S.I.”, 36/1, Babushkin street, Saint Petersburg 192171, RussiaResearch and Manufacturing Complex “Fiber”, JSC “Scientific Production Association State Optical Institute Named after Vavilov S.I.”, 36/1, Babushkin street, Saint Petersburg 192171, RussiaDepartment of Communication Lines, Povozhskiy State University of Telecommunications and Informatics, 23, Lev Tolstoy street, Samara 443010, RussiaDepartment of Radiophotonics and Microwave Theory, Kazan National Research State University named after A.N. Tupolev-KAI, 31/7, Karl Marx street, Kazan, Rep. Tatarstan 420111, RussiaResearch and Manufacturing Complex “Fiber”, JSC “Scientific Production Association State Optical Institute Named after Vavilov S.I.”, 36/1, Babushkin street, Saint Petersburg 192171, RussiaDepartment of Radiophotonics and Microwave Theory, Kazan National Research State University named after A.N. Tupolev-KAI, 31/7, Karl Marx street, Kazan, Rep. Tatarstan 420111, RussiaResearch and Manufacturing Complex “Fiber”, JSC “Scientific Production Association State Optical Institute Named after Vavilov S.I.”, 36/1, Babushkin street, Saint Petersburg 192171, RussiaDepartment of Information Technology and Security, Kazan Innovative University named after V.G. Timiryasov, 42, Moscovskaya street, Kazan, 420111, Rep., Tatarstan 420111, RussiaDepartment of Communication Lines, Povozhskiy State University of Telecommunications and Informatics, 23, Lev Tolstoy street, Samara 443010, RussiaDepartment of Communication Lines, Povozhskiy State University of Telecommunications and Informatics, 23, Lev Tolstoy street, Samara 443010, RussiaDepartment of Communication Lines, Povozhskiy State University of Telecommunications and Informatics, 23, Lev Tolstoy street, Samara 443010, RussiaWe present new type of silica graded index laser-optimized multimode optical fibers (LOMF) with extremely enlarged core diameter up to 100 μm and “typical” “telecommunication” cladding diameter 125 μm. This optical fiber was designed for harsh environment Gigabit onboard cable systems and industrial networks. It differs by special optimized graded refractive index profile, providing low differential mode delay (DMD) for selected guided modes. We present some results of tests, performed for manufactured pilot 520 m length of described LOMF 100/125, concerned with its geometry properties as well as key transmission parameters—attenuation and DMD map.https://www.mdpi.com/2079-6439/8/3/18laser-based gigabit data transmissionlarge core multimode optical fiberfew-mode regimehigher-order modesselected guided modesdifferential mode delaymode couplingon-board cable systemsindustrial networksshort-range optical networks
collection DOAJ
language English
format Article
sources DOAJ
author Vladimir A. Burdin
Michael V. Dashkov
Vladimir V. Demidov
Konstantin V. Dukelskii
Alexander S. Evtushenko
Artem A. Kuznetsov
Alexandra S. Matrosova
Oleg G. Morozov
Egishe V. Ter-Nersesyants
Alexander A. Vasilets
Elena S. Zaitseva
Alexander E. Zhukov
Anton V. Bourdine
spellingShingle Vladimir A. Burdin
Michael V. Dashkov
Vladimir V. Demidov
Konstantin V. Dukelskii
Alexander S. Evtushenko
Artem A. Kuznetsov
Alexandra S. Matrosova
Oleg G. Morozov
Egishe V. Ter-Nersesyants
Alexander A. Vasilets
Elena S. Zaitseva
Alexander E. Zhukov
Anton V. Bourdine
New Silica Laser-Optimized Multimode Optical Fibers with Extremely Enlarged 100-μm Core Diameter for Gigabit Onboard and Industrial Networks
Fibers
laser-based gigabit data transmission
large core multimode optical fiber
few-mode regime
higher-order modes
selected guided modes
differential mode delay
mode coupling
on-board cable systems
industrial networks
short-range optical networks
author_facet Vladimir A. Burdin
Michael V. Dashkov
Vladimir V. Demidov
Konstantin V. Dukelskii
Alexander S. Evtushenko
Artem A. Kuznetsov
Alexandra S. Matrosova
Oleg G. Morozov
Egishe V. Ter-Nersesyants
Alexander A. Vasilets
Elena S. Zaitseva
Alexander E. Zhukov
Anton V. Bourdine
author_sort Vladimir A. Burdin
title New Silica Laser-Optimized Multimode Optical Fibers with Extremely Enlarged 100-μm Core Diameter for Gigabit Onboard and Industrial Networks
title_short New Silica Laser-Optimized Multimode Optical Fibers with Extremely Enlarged 100-μm Core Diameter for Gigabit Onboard and Industrial Networks
title_full New Silica Laser-Optimized Multimode Optical Fibers with Extremely Enlarged 100-μm Core Diameter for Gigabit Onboard and Industrial Networks
title_fullStr New Silica Laser-Optimized Multimode Optical Fibers with Extremely Enlarged 100-μm Core Diameter for Gigabit Onboard and Industrial Networks
title_full_unstemmed New Silica Laser-Optimized Multimode Optical Fibers with Extremely Enlarged 100-μm Core Diameter for Gigabit Onboard and Industrial Networks
title_sort new silica laser-optimized multimode optical fibers with extremely enlarged 100-μm core diameter for gigabit onboard and industrial networks
publisher MDPI AG
series Fibers
issn 2079-6439
publishDate 2020-03-01
description We present new type of silica graded index laser-optimized multimode optical fibers (LOMF) with extremely enlarged core diameter up to 100 μm and “typical” “telecommunication” cladding diameter 125 μm. This optical fiber was designed for harsh environment Gigabit onboard cable systems and industrial networks. It differs by special optimized graded refractive index profile, providing low differential mode delay (DMD) for selected guided modes. We present some results of tests, performed for manufactured pilot 520 m length of described LOMF 100/125, concerned with its geometry properties as well as key transmission parameters—attenuation and DMD map.
topic laser-based gigabit data transmission
large core multimode optical fiber
few-mode regime
higher-order modes
selected guided modes
differential mode delay
mode coupling
on-board cable systems
industrial networks
short-range optical networks
url https://www.mdpi.com/2079-6439/8/3/18
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