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361	Aspectos produtivos e análise do desempenho do fibrocimento sem amianto no desenvolvimento de tecnologia para telhas onduladas / Productive aspects and performance of fibrecement without asbestos in the development of technology for undulate roofing tiles Tonoli, Gustavo Henrique Denzin 03 March 2006 (has links) Estudos anteriores utilizando matriz cimentícia reforçada exclusivamente com fibras vegetais propiciaram a produção de telhas com desempenho aceitável nas idades iniciais. Porém, com o envelhecimento natural, as telhas apresentaram significativa redução do desempenho mecânico, fato este atribuído principalmente ao ataque alcalino da matriz cimentícia. A presente pesquisa teve como objetivo o aprimoramento de telhas onduladas de fibrocimento sem amianto, a partir de processo automatizado. A primeira etapa do trabalho consistiu na avaliação do efeito da intensidade de refino da polpa Kraft de sisal (Agave sisalana) nas propriedades mecânicas e físicas de placas planas baseadas em matriz de cimento Portland, e o uso conjunto com fibras de poliproprileno (PP). Esta etapa envolveu também a caracterização dos principais atributos das polpas celulósicas refinadas, bem como a caracterização microestrutural (microscopia eletrônica de varredura e porosimetria por intrusão de mercúrio) do material resultante após envelhecimento acelerado e em ambiente natural. Na segunda etapa, séries de telhas onduladas de fibrocimento foram produzidas por técnica de sucção do excesso de água e prensagem, utilizando os melhores parâmetros definidos na etapa anterior. Os efeitos da cura acelerada em autoclave e dos envelhecimentos acelerados (carbonatação acelerada, imersão-secagem e calor-chuva) nas propriedades mecânicas e físicas das telhas foram avaliados. Os resultados obtidos mostraram a grande contribuição do refino da polpa celulósica na melhoria da resistência dos compósitos. Altas intensidades de refino apresentaram os melhores resultados para compósitos reforçados somente com polpa celulósica, mesmo após os envelhecimentos, porém intensidades intermediárias em compósitos híbridos mostraram-se suficientes. A adição das fibras de polipropileno como reforço híbrido teve como ponto forte a manutenção da resistência ao impacto, propriedade esta fortemente afetada pelo envelhecimento acelerado nos compósitos reforçados somente com polpa de sisal. As telhas produzidas mostraram-se mais eficientes no amortecimento térmico do que telhas comerciais de fibrocimento amianto. Melhorias no processo de produção das telhas mostraram efetiva contribuição no desempenho mecânico em relação aos trabalhos anteriores, tanto no curto como no longo prazo. Os resultados também indicaram a utilização da carbonatação acelerada como um procedimento eficiente na mitigação da degradação sofrida pelas fibras celulósicas em meios menos agressivos, no caminho para tornar viáveis os materiais reforçados com fibras vegetais. / Previous studies using exclusively vegetal fibres as the sole reinforcement of cement matrix have propitiated the production of roofing tiles with acceptable performance at the first ages. However, with the natural ageing, the roofing tiles have presented significant reduction in the mechanical performance, attributed to the alkaline attack of the cimentitious matrix mainly. The present research had as objective the improvement of undulate fibrecement roofing tiles without asbestos with automated equipment for production. The study also evaluated the physical, mechanical and microstructural behaviour of the obtained composites. The first stage consisted of evaluating the refinement effect of sisal Kraft pulp on mechanical and physical properties of flat pads based on Ordinay Portland cement and the jointly use of polypropylene fibres (PP). This stage also involved the characterization of the main attributes of refined cellulosic pulps, as well as the microstructural characterization (scanning electron microscopy and mercury intrusion porosimetry) of the resultant material after the accelerated and natural ageing. In the second stage, series of fibrecement roofing tiles were produced by slurry dewatering technique and pressing, using the best parameters of the first stage. Efects of autoclaved curing and accelerated ageing (accelerated carbonation, soak-dry and heat-rain) on mechanical and physical properties of tiles were evaluated. Results showed the great contribution of pulp refinement on mechanical strengh improvement. Higher intensities of refinement provided the best results for composites only reinforced with sisal pulp, despite ageing mechanism. Intermediate refinement revealed to be enough for hybrid composites. Adition of polypropylene fibres as hybrid reinforcement provided toughness maintenance after ageing, which was strongly affected only in sisal reinforced composites. Asbestos free tiles showed to be more efficient on thermal insulating properties than commercial asbestos cement. Improvements on tiles production process showed effective contribution on mechanical performance in relation to the previous works, both at initial ages and after ageing. The results have also indicated the utilization of accelerated carbonation as an effective procedure to mitigate the degradation suffered by the cellulosic fibres in the less aggressive medium, in way of the viability of the cement based materials reinforced by vegetal fibres. accelerated ageing accelerated carbonation autoclavagem autoclave carbonatação acelerada cellulosic fibres cimento Portland composites compósitos conforto térmico durabilidade durability envelhecimento acelerado fibras celulósicas fibras de polipropileno fibras de sisal fibras vegetais polypropylene fibres Portland cement sisal fibres thermal comfort vegetable fibres
362	An investigation of the tensile, compressive and interfacial properties of carbon fibres using Laser Raman Spectroscopy Melanitis, Nikolaos January 1991 (has links) Laser Raman Spectroscopy (LRS) has been employed to characterise the structure of carbon fibres, the effect of surface treatment and the response of the material to externally applied loads. The strain sensitivity provided a unique relationship between the applied strain and the Raman frequency for each type of fibre, termed as the Raman Frequency Gauge Factor. After examining a wide range of fibres, of various Young's moduli and various manufacturing routes, it was concluded that both tensile and compressive properties of carbon fibres can be improved by controlling the fibre morphology during manufacture. This morphological control seems to achieve its objectives by reducing the skin-core effect in the fibre structure. The result of such an alteration can be detected in tension by the increase of the initial fibre modulus and in compression, by the absence of premature catastrophic type of failure. Nevertheless, non-linear stress-strain phenomena seem to be a permanent feature of all carbon fibres and the significant modulus softening in compression appears to determine the limits of the fibre compressive strength. The load transfer mechanism at the carbon fibre/epoxy resin interface has been subsequently investigated during the fibre fragmentation process in a single fibre model composite. The fibre strain distribution along the fibre fragments has been derived through the Raman spectrum of the fibre and its Raman Frequency Gauge Factor. In turn, the interfacial shear stress distribution has been evaluated using a simple balance of forces model. The maximum shear stress, allowed to develop at the f ibre/matrix interface, has been considered as a reasonable estimate of its interfacial strength. It was concluded that both the fibre surface treatment and the use of a lower modulus filament can increase the system's interfacial strength, reduce debonding propagation and withhold the interfacial yielding in the vicinity of the fibre discontinuities. 620.118
363	Spectroscopie multimodale et optimisation de multimatériaux / Multimodal spectroscopy and optimization of multimaterials Chazot, Matthieu 29 November 2018 (has links) Les composés multimatériaux à base de verre connaissent aujourd’hui un intérêt croissant, en particulier sous la forme de fibres optique pour des applications dans l’infrarouge. Parmi les matériaux vitreux qui existent, les verres chalcogénures présentent de nombreux avantages, tel qu’un large domaine de transparence allant du visible à l’infrarougeou encore de bonne aptitude à pouvoir être étirer. Pour réaliser de nouvelles fibres multimatériaux, il est important d’avoir accès à un choix étendu de compositions vitreuses étirables pouvant servir de matrice hôte. Il peut être montré que les verres actuellement utilisés pour la réalisation de fibres multimatériaux couvrent deux plages de température de transition vitreuse différentes ; soit à basse température (100-250 °C), ou à haute température (1000 °C et plus). Le manque d’information sur des verres étirables couvrant un domaine intermédiaire de température entre 250 et 1000 °C, nous ont conduit à explorer les propriétés et les capacités d’étirement des verres des deux systèmes ternaires Ge-S-I et Ga-As-S. Il sera montré que ces systèmes vitreux ont en effet des Tg permettant de couvrir cette gamme intermédiaire de température et ont de larges domaines de formation vitreux. Un ensemble de caractérisations physiques et thermiques sur les verres au sein des systèmes ternaires Ge-S-I et Ge-As-S seront présentés et analysés. Il sera possible d’observer, comment notamment les résultats des mesures thermomécaniques et de viscosité des échantillons synthétisés ont permis d’aborder dans les meilleures conditions les tests d’étirement des verres. Ou encore comment l’analyse minutieuse des propriétés a pu permettre de définir un domaine de composition combinant à la fois des propriétés optimales en termes de Tg et de transparence dans le visible, avec une bonne capacité à pouvoir être étirées sous forme de fibres optiques. Pour la première fois les domaines de fibrage des deux ternaires à partir de l’étirement d’une préforme seront présentés dans ce manuscrit. Ce travail présente également une caractérisation structurale des verres Ge-S-I. Cette étude a été réalisé en combinant la spectroscopie Raman, la spectroscopie IR et des calculs de chimie théorique afin de proposer un nouveau modèle structural basé sur les avancés les plus récentes d'une part sur la structure du système binaire Ge-S, puis ternaire Ge-S-I.Enfin, les résultats préliminaires sur la réalisation de fibres multimatériaux à partir de verres Ge-S-I et Ge-As-S pour la réalisation de sources laser entre 3 et 5 µm, seront présentés. Le projet, la méthodologie et les résultats quant à la réalisation d’une fibre multimatériaux à base de verre chalcogénure avec un cœur cristallisé de ZnS à partir de deux techniques innovantes différentes, seront présentés. / Nowadays, the interest on multimaterials based on glass matrix growth constantly, in particular in the field of multimaterial optical fibers for IR applications. Among the glass materials that exist, chalcogenide glasses presents a lot of advantages as for instance large transparency windows, spanning from the visible to the infrared or also good capability to be drawn. In the aim to realize new multimaterials fibers, it is important to get a large choice of draw able glass compositions that can be used as host matrix. It can be shown that the glass used currently to make multimaterial fibers covers two glass transition temperature range ; low temperature (100-250 °C) and high temperature (1000 °C and more). The lack of information regarding the existence of glass compositions that can be drawn into fibers at intermediate temperature (between 250 and 1000 °C), has lead us to explore the properties and the draw ability of glasses into two ternary systems: Ge-As-S and Ge-S-I. It will be presented that these glass systems possess Tg that covers this intermediate range of temperature and have large glass forming regions. Some physical and thermal characterizations of Ge-As-S and Ge-S-I glasses will be presented and analyzed. It will be possible to observe how the thermomechanical and viscosity measurements made on the different samples enabled us to perform the drawing tests in the best conditions. It will be also possible to see how a careful analysis of the Ge-S-I glass properties gave us the possibility to define a glass region combining optimal properties as Tg and transparency in the visible, and good capability to be drawn. For the first time, the fiber drawing region of both systems will be presented in this thesis. This work present also a structural characterization of Ge-S-I glasses using IR and Raman spectroscopy as well as DFT calculations, in the aim to propose a new structural model based on recent development in the Ge-S network structure. Finally, preliminary results on the realization of Ge-S-I and Ge-As-S based multimaterial fibers for the production of IR laser sources between 3 and 5 µm, will be presented. The last chapter will present the project, the methodology and the results obtained to realize multimaterial fibers with ZnS core, using two different technics. Fibres optiques Verres chalcogénures Spectroscopie Optical fibers Chalcogenide glass Spectroscopy
364	Fibre-optic nonlinear optical microscopy and endoscopy Fu, Ling, n/a January 2007 (has links) Cancer is a major health problem in the world today. Almost all cancers have a significantly better chance for therapy and recovery if detected at their early stage. The capability to perform disease diagnosis at an early stage requires high-resolution imaging that can visualise the physiological and morphological changes at a cellular level. However, resolving powers of current medical imaging systems are limited to sub-millimeter sizes. Furthermore, the majority of cancers are associated with morphological and functional alterations of cells in epithelial tissue, currently assessed by invasive and time-consuming biopsy. Optical imaging enables visualisations of tissue microstructures at the level of histology in non-invasive means. Optical imaging is suitable for detecting neoplastic changes with sub-cellular resolution in vivo without the need for biopsy. Nonlinear optical microscopy based on multi-photon absorption and higher harmonic generation has provided spectacular sights into visualisation of cellular events within live tissue due to advantages of an inherent sectioning ability, the relatively deep optical penetration, and the direct visualisation of intrinsic indicators. Two-photon excited uorescence (TPEF) from intrinsic cell components and second harmonic from asymmetric supermolecular structures can provide complementary information regarding functionalities and morphologies in tissue environments, thus enabling premalignant diagnosis by detecting the very earliest changes in cellular structures. During the past sixteen years, nonlinear optical microscopy has evolved from a photonic novelty to a well-established laboratory tool. At present, in vivo imaging and long-term bedside studies by use of nonlinear optical microscopy have been limited due to the fact that the lack of the compact nonlinear optical instrument/imaging technique forces the performance of nonlinear optical microscopy with bulk optics on the bench top. Rapid developments of fibre-optics components in terms of growing functionalities and decreasing sizes provide enormous opportunities for innovation in nonlinear optical microscopy. Fibre-based nonlinear optical endoscopy will be the soul instrumentation to permit the cellular imaging within hollow tissue tracts or solid organs that are inaccessible with a conventional optical microscope. Lots of efforts have been made for development of miniaturised nonlinear optical microscopy. However, there are major challenges remaining to create a nonlinear optical endoscope applicable within internal cavities of a body. First, an excitation laser beam with an ultrashort pulse width should be delivered eciently to a remote place where ecient collection of faint nonlinear optical signals from biological samples is required. Second, laser-scanning mechanisms adopted in such a miniaturised instrumentation should permit size reduction to a millimeter scale and enable fast scanning rates for monitoring biological processes. Finally, the design of a nonlinear optical endoscope based on micro-optics must maintain great exibility and compact size to be incorporated into endoscopes to image internal organs. Although there are obvious diculties, development of fibre-optic nonlinear optical microscopy/endoscopy would be indispensible to innovate conventional nonlinear optical microscopy, and therefore make a significant impact on medical diagnosis. The work conducted in this thesis demonstrates the new capability of nonlinear optical endoscopy based on a single-mode fibre (SMF) coupler or a double-clad photonic crystal fibre (PCF), a microelectromechanical system (MEMS) mirror, and a gradientindex (GRIN) lens. The feasibility of all-fibre nonlinear optical endoscopy is also demonstrated by the further integration of a double-clad PCF coupler. The thesis concentrates on the following key areas in order to exploit and understand the new imaging modality. It has been known from the previous studies that an SMF coupler is suitable for twoii photon excitation by transmitting near infrared illumination and collecting uorescence at visible wavelength as well. Although second harmonic generation (SHG) wavelength is farther away from the designed wavelength of the fibre coupler than that of normal TPEF, it is demonstrated in this thesis that both SHG and TPEF signals can be collected simultaneously and eciently through an SMF coupler with axial resolution of 1.8 um and 2.1 um, respectively. The fibre coupler shows a unique feature of linear polarisation preservation along the birefringent axis over the near infrared and the visible wavelength regions. Therefore, SHG polarisation anisotropy can be potentially extracted for probing the orientation of structural proteins in tissue. Furthermore, this thesis shows the characterisation of nonlinear optical microscopy based on the separation distance of an SMF coupler and a GRIN lens. Consequently, the collection of nonlinear signals has been optimised after the investigation of the intrinsic trade-off between signal level and axial resolution. These phenomena have been theoretically explored in this thesis through formalisation and numerical analysis of the three-dimensional (3D) coherent transfer function for a SHG microscope based on an SMF coupler. It has been discovered that a fibreoptic SHG microscope exhibits the same spatial frequency passband as that of a fibreoptic reection-mode non-uorescence microscope. When the numerical aperture of the fibre is much larger than the convergent angle of the illumination on the fibre aperture, the performance of fibre-optic SHG microscopy behaves as confocal SHG microscopy. Furthermore, it has been shown in both analysis and experiments that axial resolution in fibre-optic SHG microscopy is dependent on the normalised fibre spot size parameters. For a given illumination wavelength, axial resolution has an improvement of approximately 7% compared with TPEF microscopy using an SMF coupler. Although an SMF enables the delivery of a high quality laser beam and an enhanced sectioning capability, the low numerical aperture and the finite core size of an SMF give rise to a restricted sensitivity of a nonlinear optical microscope system. The key innovation demonstrated in this thesis is a significant signal enhancement of a nonlinear optical endoscope by use of a double-clad PCF. This thesis has characterised properties of our custom-designed double-clad PCF in order to construct a 3D nonlinear optical microscope. It has been shown that both the TPEF and SHG signal levels in a PCF-based system that has an optical sectioning property for 3D imaging can be significantly improved by two orders of magnitude in comparison with those in an SMF-based microscope. Furthermore, in contrast with the system using an SMF, simultaneous optimisations of axial resolution and signal level can be obtained by use of double-clad PCFs. More importantly, using a MEMS mirror as the scanning unit and a GRIN lens to produce a fast scanning focal spot, the concept of nonlinear optical endoscopy based on a double-clad PCF, a MEMS mirror and a GRIN lens has been experimentally demonstrated. The ability of the nonlinear optical endoscope to perform high-resolution 3D imaging in deep tissue has also been shown. A novel three-port double-clad PCF coupler has been developed in this thesis to achieve self-alignment and further replace bulk optics for an all-fibre endoscopic system. The double-clad PCF coupler exhibits the property of splitting the laser power as well as the separation of a near infrared single-mode beam from a visible multimode beam, showing advantages for compact nonlinear optical microscopy that cannot be achieved from an SMF coupler. A compact nonlinear optical microscope based on the doubleclad PCF coupler has been constructed in conjunction with a GRIN lens, demonstrating high-resolution 3D TPEF and SHG images with the axial resolution of approximately 10 m. Such a PCF coupler can be useful not only for a fibre-optic nonlinear optical probe but also for double-clad fibre lasers and amplifiers. The work presented in this thesis has led to the possibility of a new imaging device to complement current non-invasive imaging techniques and optical biopsy for cancer detection if an ultrashort-pulsed fibre laser is integrated and the commercialisation of the system is achieved. This technology will enable in vivo visualisations of functional and morphological changes of tissue at the microscopic level rather than direct observations with a traditional instrument at the macroscopic level. One can anticipate the progress in bre-optic nonlinear optical imaging that will propel imaging applications that require both miniaturisation and great functionality. microscopy endoscopy photonic crystal fibres microelectromechanical systems tissue imaging
365	Transduction de protéines dans le développement d'un traitement pour la dystrophie musculaire de Duchenne Caron, Nicolas. January 1900 (has links) (PDF) Thèse (Ph. D.)--Université Laval, 2004. / Titre de l'écran-titre (visionné le 18 octobre 2005). Bibliogr.
366	Mesure et calcul des contraintes résiduelles dans les pièces injectées en thermoplastiques avec et sans fibres de renfort Giroud, Thomas 11 December 2001 (has links) (PDF) Dans un premier temps, les phénomènes à l'origine des contraintes résiduelles en injection de thermoplastique sont décrits, avec les spécificités liées aux polymères renforcés de fibres. Le refroidissement hétérogène associé à une variation de comportement mécanique conduit aux contraintes d'origine thermique, auxquelles il faut ajouter les contraintes dues à la pression dans la phase fluide figée par la solidification. Les fibres de renfort introduisent une hétérogénéité et une anisotropie de comportement mécanique et de retrait. Dans un deuxième temps, une méthode de mesure des contraintes résiduelles basée sur l'enlèvement de couches et la mesure des moments de flexion est présentée. Elle permet la mesure des contraintes résiduelles pour des matériaux anisotropes comme les thermoplastiques renforcés de fibres. En général, on obtient des contraintes de traction en cœur et de compression en peau. L'effet du fraisage pour enlever les couches est évalué. La pression et le temps de maintien, la température de régulation du moule, le taux de fibres influencent les profils de contraintes. Injection Thermoplastiques Contraintes résiduelles Fibres
367	Comparaison de l'Anatomie et de la Fonction Cardiaque: Statistiques sur l'Architecture des Fibres et Recalage d'Images 4D CT Peyrat, Jean-Marc 27 November 2009 (has links) (PDF) Ce travail de thèse s'est consacré à la comparaison de l'anatomie et de la fonction cardiaques à partir d'images médicales. Une première partie se concentre sur l'anatomie cardiaque avec une étude statistique de l'architecture des bres musculaires du c÷ur à partir d'IRM de tenseur de di usion. Dans la deuxième partie est proposée une comparaison la fonction cardiaque de di érents patients ou du même patient a di érents instants par le recalage spatiotemporel de séquences 4D CT. La complexe organisation des bres musculaires cardiaques a un rôle très important dans le comportement électrique et mécanique du c÷ur. Pour étudier cette architecture des bres, nous avons proposé de nouveaux outils algorithmiques d'analyse statistique d'IRM de tenseurs de di usion. La nouveauté de cette approche est de réaliser cette analyse statistique directement sur les tenseurs de di usion l'a où la plupart des études statistiques se font sur des vecteurs ou angles d'orientation décrivant les directions des bres et des feuillets. La variabilité de l'orientation des bres et des feuillets est ensuite directement donnée par la matrice de covariance des tenseurs de di usion de laquelle sont extraites les variabilités des vecteurs propres. L'application de ces outils a une base de données d'IRM de tenseur de di usion de c÷urs de chiens acquis ex vivo a permis d'obtenir un atlas de l'architecture des bres mais aussi de révééler une cohérence de l'orientation des bres et une plus grande variabilité de l'orientation des feuillets. Ensuite, nous avons comparé l'atlas de c÷urs de chien à un c÷ur humain et un modèle synthétique couramment utilisé pour des simulations électromé- caniques ou l'analyse d'images cardiaques. Le c÷ur humain s'est révélé plus proche des c÷urs de chien au niveau de l'orientation des bres que de celle des feuillets. Le modèle synthétique quant à lui s'est montré trop simple pour décrire en détails la complexité de l'architecture des bres. L'acquisition de séquences d'images cardiaques permet d'observer le mouvement cardiaque et donc sa fonction. Nous avons proposé un nouvel algorithme de recalage nonlin éaire spatiotemporel de séquences d'images qui permet de comparer cette fonction cardiaque. Le recalage temporel assure la mise en correspondance d'instants physiologiques similaires. Le recalage spatial quant à lui doit assure une cohérence entre le mouvement des points physiques intra-séquence et leur mise en correspondance inter-séquence. Cette cohérence est assurée par les contraintes de trajectoires liant les transformations intras équences décrivant le mouvement cardiaque aux transformations inter-séquences décrivant les di érences anatomiques au cours du temps. Sous ces contraintes de trajectoires, le recalage spatial 4D est simpli é en un recalage multicanal 3D résolu avec une nouvelle version des Demons Di eomorphes Multicanaux. Cette méthode de recalage spatiotemporel est appliquée au recalage inter-sujet de séquences 4D CT pour évaluation. Comparée a d'autres techniques existantes, cette technique de recalage s'est révélée le meilleur compromis en terme de précision, de régularité spatiale et temporelle, mais aussi de temps de calcul. Un exemple d'application possible du recalage spatiotemporal est proposé avec la comparaison de l'anatomie et de la fonction cardiaques avant et après thérapie. [INFO] Computer Science Coeur Anatomie Imagerie du tenseur de diffusion Fibres musculaires
368	Métriques kählériennes de volume fini, uniformisation des surfaces complexes réglées et équations de Seiberg-Witten Rollin, Yann 09 January 2001 (has links) (PDF) Let M=P(E) be a ruled surface. We introduce metrics of finite volume on M whose singularities are parametrized by a parabolic structure over E. Then, we generalise results of Burns--de Bartolomeis and LeBrun, by showing that the existence of a singular Kahler metric of finite volume and constant non positive scalar curvature on M is equivalent to the parabolic polystability of E; moreover these metrics all come from finite volume quotients of $H^2 \times CP^1$. In order to prove the theorem, we must produce a solution of Seiberg-Witten equations for a singular metric g. We use orbifold compactifications $\overline M$ on which we approximate g by a sequence of smooth metrics; the desired solution for g is obtained as the limit of a sequence of Seiberg-Witten solutions for these smooth metrics. [MATH] Mathematics Geometrie differentielle fibres paraboliques Seiberg-Witten
369	Techniques collectives pour la recombinaison cohérente d'un grand nombre de fibres laser Bellanger, Cindy 31 May 2010 (has links) (PDF) Les propriétés intrinsèques de la fibre optique utilisée comme milieu à gain en font un candidat idéal pour le développement de sources laser de haute puissance, aujourd'hui capable de rivaliser avec les lasers à état solide, tout en apportant ses avantages propres : robustesse, efficacité, qualité de faisceau potentielle, gestion de la thermique, compacité et tenue à l'environnement. Les domaines d'application sont nombreux : industrie (usinage, marquage), défense (télémétrie, imagerie), environnement (lidar), communications en espace libre, recherche fondamentale... Cependant, certaines applications nécessitent des puissances ou énergie encore supérieures à ce que peut délivrer une seule fibre associée à une bonne qualité de faisceau. Pour contourner cette difficulté, l'approche abordée ici est de répartir l'amplification sur plusieurs fibres lasers, puis de recombiner les faisceaux en espace libre. Ce travail est préparatoire à une nouvelle génération de lasers hyper-intenses et a été réalisé dans le cadre du projet ANR CAN, collaboration entre LOA, IOGS, Thales R&T et Onera. Suivant le dimensionnement défini par l'étude théorique de la combinaison cohérente de faisceaux laser, un toron de 64 fibres collimatées chacune par une petite lentille est conçu puis réalisé technologiquement. Par extension de l'idée de l'interféromètre à décalage quadri-latéral, une méthode de mesure collective et auto-référencée de la phase des fibres est mise au point. Enfin, une technique originale et auto-adaptative de mise en phase par holographie numérique est présentée et validée expérimentalement. combinaison de faisceaux fibres laser
370	Fibre Bragg Gratings : Characterization, Realization and Simulation Petermann, Ingemar January 2007 (has links) The main topic of this thesis is realization and characterization of fibre Bragg gratings. A novel versatile grating fabrication technique is developed and a number of gratings are realized, showing the potential of the system. Arbitrarily-shaped gratings are sequentially imprinted in the fibre by a moving interference pattern created with a continuous-wave ultraviolet (UV) source. This scheme allows for a very good control and stability of the grating shape, which is also shown experimentally. As opposed to most other present fabrication techniques, the proposed method offers a total control over the grating parameters by software, enabling simple implementation of new designs. Different kinds of error sources when stitching long gratings are identified and investigated regarding impact on the final grating result. Another important question within this field is how to characterize gratings. We propose a new characterization method based on optical low-coherence reflectometry (OLCR). A new interferometer design allows for simple simultaneous detection of the reflection response from two different points in the interrogated grating, so that differential measurements can be performed. The advantage of this is that the sensitivity to noise caused by e.g. thermal fluctuations in the system is substantially reduced. Several test gratings have been investigated and a very good agreement to the expected results is noted. A second characterization technique using interferometric detection of the side diffraction from the grating under test is investigated both theoretically and experimentally. With aid of two-dimensional theory for wave propagation, it is shown that there is a linear relation between the detected phase and modulation depth and the corresponding grating properties. The technique is evaluated with a novel scheme of implementation where the UV source provided in a fabrication setup is used assource for the side probe. This approach results in a very simple implementation and opens for an integration of the characterization and fabrication systems. Finally, a tuning method for transmission filters based on local heating of linearly chirped fibre Bragg gratings is analysed and further developed to allow for fully software-controlled operation. The potential of this technique is illustrated by some promising initial experimental results. / QC 20100812 Bragg gratings optical fibres optical fibre components Physics Fysik

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