Spelling suggestions: "subject:"optical fiber amplifier""
1 |
Dual-wavelength fiber laser above 2 mu m based on cascaded single mode-multimode-single mode structuresFu, Shijie, Shi, Guannan, Sheng, Quan, Shi, Wei, Yao, Jianquan, Zhu, Xiushan, Peyghambarian, N. 06 1900 (has links)
A stable dual-wavelength Tm:Ho co-doped fiber laser operating above 2 mu m based on cascaded single mode-multimode-single mode (SMS) all-fiber structures has been proposed and experimentally demonstrated for the first time.
|
2 |
Power scaling of single-frequency fiber amplifiers at 976 nmWu, Jingwei, Zhu, Xiushan, Temyanko, Valery, Valery; LaComb, L., Norwood, R. A., Peyghambarian, N. 06 1900 (has links)
Cladding pumped single-frequency Yb3+-doped fiber amplifiers at 976 nm were investigated. Over 4 W output power was obtained and further power scaling can be achieved by reducing the cladding diameter of the Yb3+-doped fiber.
|
3 |
Generation of high-power femtosecond pulse and octave-spanning ultrabroad supercontinuum using all-fiber systemTakayanagi, Jun, Nishizawa, Norihiko, Nagai, Hiroyuki, Yoshida, Makoto, Goto, Toshio 01 1900 (has links)
No description available.
|
4 |
Radiation hardening of rare-earth doped fiber amplifiers / Durcissement aux radiations d'amplificateurs à fibres optiques dopés aux terres raresVivona, Marilena 04 July 2013 (has links)
Cette thèse est consacrée à l'étude de la réponse aux radiations d'amplificateurs à fibre optiques dopées Er 3+ et Yb3+. Ces dispositifs fonctionnant à 1,5 µm ont été conçus pour des applications spatiales et l'évaluation de leurs performances revêt d’une importance capitale dans un tel environnement hostile. Deux traitements, le chargement en H2 et le co-dopage au Ce du cœur de la fibre, ont été étudiés comme solutions de durcissement aux radiations. Une étude spectroscopique a permis d’approfondir la connaissance des mécanismes physiques de base responsables de la dégradation de ces composants et par conséquent de proposer des solutions de durcissement. La thèse est organisée en trois parties. La Partie I présente une description générale des fibres dopées aux ions de Terres Rares (TR), avec l'introduction des concepts de base de la physique de tels éléments et leur interaction avec la matrice hôte (verre phosphosilicate). L'état de l'art concernant les effets des rayonnements sur les fibres dopées aux TR est également présenté. La Partie II décrit les échantillons et les techniques expérimentales utilisées. La Partie III décrit les principaux résultats dont les tests, en configuration active, démontrent que le co-dopage au Ce ainsi que le chargement en H2 ont un rôle-clé dans la limitation des pertes induites par rayonnement. L'analyse spectroscopique de la matrice vitreuse (Raman) et des ions TR (par mesures de luminescence stationnaire et résolue en temps) mettent en exergue un fort effet de durcissement, conduisant à une préservation de l'efficacité du système physique en opération / This thesis is devoted to the study of the radiation response of optical amplifiers based on Er/Yb doped fibers. These devices operating at 1.5 µm are conceived for space applications and contextually the evaluation of their performance in such harsh environment becomes of crucial importance. Two treatments, the H2-loading and the Ce-doping of the fiber core, are investigated as radiation hardening solutions. A spectroscopic study has been associated, in order to improve the knowledge of the physical mechanisms responsible for the signal degradation and the action of the hardening solutions. The thesis is organized in three parts. Part I deals with a general description of the Rare-Earth (RE)-doped fibers, with the introduction of some basic concepts of the RE-ion physics and their interaction with the host matrix material (phosphosilicate glass). The state-of-art of the radiation effects on the optical fibers, particularly the RE- doped fibers, is also overviewed. Part II describes the samples (fiber fabrication, geometry and chemical compositions), and the used experimental techniques, including a short discussion on the related theoretical background. Part III describes the main results; firstly, the active tests, performed on the RE-doped fiber as part of an optical amplifier, demonstrate that the Ce-codoping and H2-load have a key-role in the limitation of the radiation induced losses. Then, the spectroscopic analysis of the phosphosilicate glass (Raman study) and of the RE-ions (stationary and time-resolved luminescence) show a stabilization effect due to the two treatments, leading to a preservation of the high efficiency of the physical system under study
|
Page generated in 0.085 seconds