Spatial beam self-cleaning in multimode lanthanum aluminum silicate glass fiber

Romain Guénard; Katarzyna Krupa; Alessandro Tonello; Marc Fabert; Jean Louis Auguste; Georges Humbert; Stéphanie Leparmentier; Jean René Duclère; Sébastien Chenu; Gaëlle Delaizir; Guy Millot; Daniele Modotto; Stefan Wabnitz; Vincent Couderc

doi:10.1016/j.yofte.2019.102014

Spatial beam self-cleaning in multimode lanthanum aluminum silicate glass fiber

Romain Guénard, Katarzyna Krupa, Alessandro Tonello, Marc Fabert, Jean Louis Auguste, Georges Humbert, Stéphanie Leparmentier, Jean René Duclère, Sébastien Chenu, Gaëlle Delaizir, Guy Millot, Daniele Modotto, Stefan Wabnitz, Vincent Couderc

Лаборатория нелинейной оптики волноводных систем ФФ

Результат исследования: Научные публикации в периодических изданиях › статья

Аннотация

We demonstrated that spatial Kerr beam self-cleaning can be obtained in a highly multimode multicomponent optical fiber based on lanthanum aluminum silicate oxide glasses (SiO₂-Al₂O₃-La₂O₃), which was made by using the modified powder in tube technology (MIPT). We show how such fabrication method can provide interesting potentialities to design doped multimode optical fibers with homogeneous and quasi-parabolic refractive-index core profile for nonlinear optics applications.

Язык оригинала	английский
Номер статьи	102014
Число страниц	5
Журнал	Optical Fiber Technology
Том	53
DOI	https://doi.org/10.1016/j.yofte.2019.102014
Состояние	Опубликовано - 1 дек 2019

Доступ к документу

10.1016/j.yofte.2019.102014

Link to publication in Scopus

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Guénard, Romain ; Krupa, Katarzyna ; Tonello, Alessandro ; Fabert, Marc ; Auguste, Jean Louis ; Humbert, Georges ; Leparmentier, Stéphanie ; Duclère, Jean René ; Chenu, Sébastien ; Delaizir, Gaëlle ; Millot, Guy ; Modotto, Daniele ; Wabnitz, Stefan ; Couderc, Vincent. / Spatial beam self-cleaning in multimode lanthanum aluminum silicate glass fiber. В: Optical Fiber Technology. 2019 ; Том 53.

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title = "Spatial beam self-cleaning in multimode lanthanum aluminum silicate glass fiber",

abstract = "We demonstrated that spatial Kerr beam self-cleaning can be obtained in a highly multimode multicomponent optical fiber based on lanthanum aluminum silicate oxide glasses (SiO2-Al2O3-La2O3), which was made by using the modified powder in tube technology (MIPT). We show how such fabrication method can provide interesting potentialities to design doped multimode optical fibers with homogeneous and quasi-parabolic refractive-index core profile for nonlinear optics applications.",

keywords = "Four-wave mixing, Multimaterial optical fiber, Multimode fiber, Nonlinear propagation, Powder in tube, Self-cleaning, INSTABILITY, MODE, 2ND-HARMONIC GENERATION",

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Spatial beam self-cleaning in multimode lanthanum aluminum silicate glass fiber. / Guénard, Romain; Krupa, Katarzyna; Tonello, Alessandro; Fabert, Marc; Auguste, Jean Louis; Humbert, Georges; Leparmentier, Stéphanie; Duclère, Jean René; Chenu, Sébastien; Delaizir, Gaëlle; Millot, Guy; Modotto, Daniele; Wabnitz, Stefan; Couderc, Vincent.

В: Optical Fiber Technology, Том 53, 102014, 01.12.2019.

Результат исследования: Научные публикации в периодических изданиях › статья

TY - JOUR

T1 - Spatial beam self-cleaning in multimode lanthanum aluminum silicate glass fiber

AU - Guénard, Romain

AU - Krupa, Katarzyna

AU - Tonello, Alessandro

AU - Fabert, Marc

AU - Auguste, Jean Louis

AU - Humbert, Georges

AU - Leparmentier, Stéphanie

AU - Duclère, Jean René

AU - Chenu, Sébastien

AU - Delaizir, Gaëlle

AU - Millot, Guy

AU - Modotto, Daniele

AU - Wabnitz, Stefan

AU - Couderc, Vincent

PY - 2019/12/1

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AB - We demonstrated that spatial Kerr beam self-cleaning can be obtained in a highly multimode multicomponent optical fiber based on lanthanum aluminum silicate oxide glasses (SiO2-Al2O3-La2O3), which was made by using the modified powder in tube technology (MIPT). We show how such fabrication method can provide interesting potentialities to design doped multimode optical fibers with homogeneous and quasi-parabolic refractive-index core profile for nonlinear optics applications.

KW - Four-wave mixing

KW - Multimaterial optical fiber

KW - Multimode fiber

KW - Nonlinear propagation

KW - Powder in tube

KW - Self-cleaning

KW - INSTABILITY

KW - MODE

KW - 2ND-HARMONIC GENERATION

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DO - 10.1016/j.yofte.2019.102014

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