Global ETD Search

1	Pulsed laser ablation, deposition and processing of titanium doped Alâ‚‚Oâ‚ƒ and its analysis Schmidt, Marc J. J. January 2001 (has links) No description available. 530.41 Optical thin films
2	The Study and Fabrication of Optical Coatings on Cr4+:YAG Crystal Fiber Laser and Yb3+:YAG-silica Fiber Laser Ji, Kuan-Dong 03 July 2008 (has links) Recently, with the escalating demands for optical communication, the need to use broadband laser light sources in optical communication network system has increased. Henceforward, the broadband characteristes of Cr4+:YAG crystal fiber possess signifies its indispensability. Furthermore, Yb3+:YAG-silica also has its advantages in high power laser domain. In this thesis, the crystal fiber grown by the laser heated pedestal growth method is used as the laser gain medium with fused silica packaging technique. Cr4+:YAG double-clad crystal fiber with a core diameter as small as 11 £gm was achieved. Moreover, a Yb3+:YAG-silica layer was formed due to the strong inter-diffusion between silica capillary and Yb3+:YAG crystal. When the silica all diffused into the Yb3+:YAG, a Yb3+:YAG-silica fiber with 125-£gm core was obtained with waveguide structure. By directly coating the optical thin films onto the end faces of the two types of fibers, the laser configuration is compact and cost effective. Besides, heat dissipation is also improved. By Cu-Al alloy packaging, a record-low Cr4+:YAG double-clad crystal fiber laser was achieved with threshold of 0.75 mW and a record-high slope efficiency of 6.9% at room temperature. And we also successfully fabricate the Yb3+:YAG-silica fiber laser with low threshold (100 mW) and high efficiency (67.2%) at room temperature. In fiber laser development, we have successfully fabricated the coating of high-reflective thin films which match the faces of fiber heterostructure (single cladding and double cladding structures). It forms a cavity with anti-reflectivity for pumping wavelength and high-reflectivity for lasing wavelength. For these reasons, low threshold, high slope efficiency, and stable laser output have been achieved. Finally, through different thin-film designs, the strain effect between thin film and heterosubstrate is significantly reduced, which facilitates the realization of high performance fiber lasers. optical thin films Yb:YAG-silica Cr:YAG fiber laser coating
3	Linear Optical Thin Films Formed by Electrostatic Self-Assembly Luo, Zhaoju 16 June 2000 (has links) The Electrostatic Self-Assembly (ESA) technique possesses great advantages over traditional thin film fabrication methods, making it an excellent choice for a number of applications in the fields of linear and nonlinear optics, electronics, sensing and surface coatings. The feasibility of fabricating linear optical interference filters by ESA methods is demonstrated in this thesis work. Basic single-anion/single-cation ESA films are synthesized and their optical parameters -- refractive index and average thickness for individual bilayer -- are investigated to provide a basis for the in-depth design of optical filters. High performance dielectric stack filters and narrowband and wideband antireflection coatings are designed using TFCalc simulation software and are fabricated by ESA. Both bulk film sensitivity and layer sensitivity to manufacturing errors are provided. The significant agreement between simulation and experiment demonstrates the strong capability of ESA to precisely control the refractive index and produce excellent thin film filters. The performance of optical thin film filters is largely enhanced compared to the results of previous methods. The experiment results indicate that the ESA process may be used to fabricate optical filters and other optical structures that require precise index profile control. / Master of Science electrostatic self-assembly (ESA) linear optical thin films dielectric stack filter antireflection coating
4	Self-Assembled Multilayered Dielectric Spectral Filters Chandran, Ashwin 11 January 2002 (has links) Thin film optical filters are made by depositing thin films of optical materials on a substrate in such a way as to produce the required optical and mechanical properties. The Electrostatic Self Assembly (ESA) process is accomplished by the alternate adsorption of poly-anionic and poly-cationic molecules on progressive oppositely charged surfaces. This technique offers several advantages such as ease of fabrication, molecular level uniformity, stable multilayer synthesis and avoidance of the need for a vacuum environment. The ESA process offers an excellent choice for manufacturing optical thin film coatings due to its capability to incorporate multiple properties into films at the molecular level and its ability to be a fast and inexpensive process. The ESA process, as a method for manufacturing optical thin film filters has been investigated in detail in this thesis. A specific design was made and analyzed using TFCalc, a commercial thin film design software. Sensitivity analysis detailing the changes in filter response to errors in thickness and refractive index produced by the ESA process were done. These proved that with a high level of quality control, highly reliable and accurate optical thin films can be made by the ESA process. / Master of Science Needle Filters Optical Thin Films Electro Static Self-Assembly Dielectric stack filter
5	Electrostatic Self-Assembly of Linear and Nonlinear Optical Thin Films Cooper, Kristie Lenahan 06 May 1999 (has links) This dissertation demonstrates the feasibility of using novel electrostatic self-assembly (ESA) methods to fabricate linear and nonlinear optical thin films and components. The ESA process involves the layer-by-layer alternate adsorption of anionic and cationic complexes from aqueous solutions. Selection of the molecules in each layer, their orientation at the molecular level, and the order in which the layers are assembled determine the film's bulk optical, electronic, magnetic, thermal, mechanical and other properties. In this work, the capability of nanoscale control over film optical properties allowed the fabrication of complicated refractive index profiles required for linear optical interference filters. The inherent ordered nature of ESA films yielded extremely stable noncentrosymmetric thin films for second-order nonlinear optical applications. The ESA technique offers numerous advantages over conventional thin film fabrication methods and offers great potential in commercial applications such as reflectance and AR filters, EO waveguides and modulators and other optoelectronic devices. The structure of each monolayer in ESA films is dependent on the processing parameters, producing subsequent variations in bulk film properties both intentionally and incidentally. As this method is still in its infancy, variations in ESA processing methods, including process automation, are considered first in this document. These results allowed carefully controlled refractive index experiments and the synthesis of both step and graded index structures, several microns thick. Dielectric stack, Rugate, and antireflection optical interference filters were designed, synthesized and demonstrated. c(2) films of both commercially available polymer dyes and novel polymers designed specifically for the ESA process were demonstrated using second harmonic generation. UV/vis spectroscopy, ellipsometry and atomic force microscopy analysis are presented. / Ph. D. dielectric stack optical thin films chi(2) effect optical interference filter nonlinear optics (NLO) electrostatic self-assembly (ESA)
6	Terahertz oscillation and stimulated emission from planar microcavities Gehlhaar, Robert 20 July 2007 (has links) (PDF) In the past decades, the miniaturization in optics led to new devices with structural sizes in the range of the light wavelength, where the photonic modes are con- fined and the number of states is limited. In the smallest microcavities, i.e. micrometer sized optical resonators, the propagation of only one mode is permitted that is simultaneously amplified internally. This particularly strong enhancement of the electric field is directly related to the quality factor of the cavity. By introducing an optical dipole into a high-Q microcavity, the spontaneous emission is amplified at the cavity mode frequency enabling stimulated emission in an inverted system. Although some of theses cavity e®ects can only be understood by quantum elec- trodynamic theory, most mechanisms are accessible by classical and semi-classical approaches. In this thesis, one-dimensional planar microcavities with quality factors up to 4500 have been fabricated by physical vapor deposition of dielectric thin films and organic active materials. A new cavity design based on anisotropic dielectric mirrors grown by oblique angle deposition microcavities with two energetically shifted orthogonally polarized modes is presented. The application of these anisotropic structures for terahertz di®erence signal generation is demonstrated in spectrally and time resolved transmission experiments, where optical beats with repetition rates in the terahertz range are observed. Optically pumped organic vertical cavity surface emitting lasers (VCSELs) have been realized by applying an organic solid state laser compound and high reflectance distributed Bragg reflectors. These lasers combine a very low laser threshold with small beam divergence and good stability. A transfer of the anisotropic design towards an organic VCSEL results in the generation of two perpendicularly polarized laser modes with a splitting adjustable by the fabrication conditions. The observation of an oscillation of two laser modes in a photomixing experiment proves a phase coupling mechanism. This demonstrates the potential of the anisotropic cavity design for a passive or active component in a terahertz radiation source or frequency generator. Furthermore, microcavities with two and three coupled resonators are investigated. By the application of time-resolved transmission experiments, spatial oscil- lations of the internal electric field - photonic Bloch oscillations - are successfully demonstrated. In combination with the anisotropic microcavities, this is a second concept for the modulation of transmitted light with terahertz frequencies. All experiments are accompanied by numerical or analytical models. Transmission experiments of continuously incident light and single laser pulses are compared with transfer matrix simulations and Fourier transform based approaches. For the modeling of emission experiments, a plane wave expansion method is successfully used. For the analysis of the organic VCSEL dynamics, we apply a set of rate equations that explains the gain switching process. microcavity optical thin films organic laser terahertz oscillation terahertz modulation Fabry-Perot filter Mikroresonator Organischer Laser Optische Dünnschichten Terahertz Modulation Fabry-Perot-Filter ddc:530 rvk:UP 9000
7	Development of optimized strategies for the monitoring of the deposition of optical thin-film filters / Développement d'une stratégie optimisée pour le contrôle de dépôt de filtres à base de couches minces Vignaux, Maël 05 December 2017 (has links) Cette thèse porte sur la création d’algorithmes capables d’identifier les meilleures stratégies de contrôle de dépôt de filtres optiques interférentiels. Nous nous intéressons plus particulièrement au contrôle optique qui est, en règle générale, la méthode la plus précise pour définir les critères d’arrêt de dépôt d’une couche de quelques dizaines à centaines de nanomètres et avec une précision de quelques 0,1%. L’objectif de cette thèse vise donc à prédire le résultat expérimental d’un dépôt ainsi que d’en maximiser le taux de réussite.Trois algorithmes sont alors proposés avec pour objectif premier de pouvoir simuler les dépôts de couches minces de manière précise et statistique, de réduire la quantité de stratégies de contrôle possibles à l’aide de critères théoriques, et enfin de sélectionner la solution amenant au meilleur taux de réussite possible. / The aim of this thesis is the creation of algorithms capable of identifying the best strategies for controlling the deposition of optical interference filters. We are particularly interested in optical monitoring, which is, as a general rule, the most accurate method for defining the deposition triggering criteria of a layer from a few tens to hundreds of nanometers and with an accuracy of about 0.1%. The objective of this thesis is thus to predict the result of a deposition and to maximize its success rate by generating an optimal optical monitoring strategy. A virtual deposition process software has then been created to get closer to the experimental conditions and thus allows to select any optical monitoring strategy Two algorithms are then proposed, one with the objective of reducing the quantity of possible solutions for the monitoring of a filter and a second which is used to select the one with the best sucess rate. Couches minces optiques Simulation de dépôt Génération de stratégies de contrôle Traitement du signal optique. Optical thin films Virtual deposition process Automatic monitoring strategy creation Optical signal monitoring Signal processing.
8	Growth, Optimization, and Characterization of Transition Metal Nitrides and Transition Metal Oxides for Electronic and Optical Applications Biegler, Zachary J. January 2019 (has links) No description available. Materials Science Optics Engineering Transition Metal Oxides Transition Metal Nitrides Unbalanced Magnetron Sputtering Thin Film Characterization Physical Vapor Deposition Optical Thin Films
9	Tenue au flux des couches minces optiques en régime subpicoseconde Mangote, Benoit 07 October 2011 (has links) L’endommagement laser est le résultat d’une interaction laser-matière qui se traduit par une dégradation physique des optiques, entraînant une détérioration de leur fonction optique. C'est un des facteurs limitant le développement des lasers de puissance et de leurs applications. Dans les matériaux diélectriques et en régime femtoseconde, ce phénomène repose sur des processus non linéaires et dépend des propriétés intrinsèques du matériau, contrairement au régime nanoseconde. Un banc d'endommagement laser femtoseconde a été développé et appliqué à l'étude du comportement des couches minces diélectriques. Le caractère déterministe de l'endommagement femtoseconde a été confirmé sur les substrats et les couches minces. Nous montrons de plus que les couches minces sont le siège d’effets transitoires, capables d’affecter le seuil d’endommagement, lorsque la densité d’électrons libres atteint une valeur critique. Un modèle dynamique a été développé afin de prendre en compte ces effets. Son efficacité à prédire l’évolution du seuil d’endommagement en fonction de la durée de l’impulsion a été démontrée expérimentalement. Les tests d’endommagement menés sur des monocouches HfO2 montrent une dépendance du seuil d’endommagement avec la technique de dépôt. Par ailleurs le comportement linéaire du seuil d’endommagement en fonction de la largeur de bande interdite a été confirmé pour les oxydes purs. Enfin nous présentons la première étude exhaustive sur la tenue au flux de mixtures d'oxydes, menée en collaboration avec le centre laser de l’Université de Vilnius, Lituanie et le Laser Zentrum Hannover LZH, Allemagne. / The laser damage is the result of a laser-matter interaction leading to the physical degradation of the optics, causing a deterioration of their optical function. This is one factor limiting the development of high power lasers and their applications. In dielectric materials and sub-picosecond regime, this phenomenon is based on non-linear processes and depends on the intrinsic properties of the material, as opposed to the nanosecond regime. A bench dedicated to the measurement of laser damage threshold has been developed and applied to study the behavior of optical dielectric thin films at 1030nm. The deterministic nature of sub-picosecond damage was evidenced on the substrates and thin films. A predictive model based on photo-ionisation and avalanche effects was developed for interpretation of the measurements. This model is specific to the case of multilayer optical effects since interference effects and transient response of the films are taken into account. Its effectiveness in predicting the evolution of the damage threshold as a function of pulse duration on HfO2 films. Moreover, the linear behavior of the damage threshold with the band gap has been experimentally observed for oxide materials and described by the model. Finally we present the first exhaustive study on the optical resistance of oxides mixtures, conducted in collaboration with the University of Vilnius, Lithuania, and the Laser Zentrum Hannover LZH, Germany. Endommagement laser Couches minces Interaction laser matière Composants optiques Impulsions subpicoseconde Impulsions femtoseconde Mixtures Laser damage Optical thin films Laser-matter interaction Optical components Mixtures Subpicosecond pulses Femtosecond pulses
10	Développement de systèmes de contrôle in situ des propriétés optiques de filtres interférentiels / Development of in situ optical monitoring systems of optical interferential filters properties Nadji, Séverin Landry 29 May 2018 (has links) La réalisation de fonctions de filtrage complexes nécessite une parfaite maîtrise du processus de dépôt ainsi qu’un contrôle précis et en temps réel de l’épaisseur optique des couches déposées. Au cours de ma thèse, consacrée au développement de nouvelles modalités de contrôle optique in situ, je me suis particulièrement intéressé à deux sujets différents, à savoir : - D’une part, la détermination de la dépendance spectrale des constantes optiques (indice de réfraction et coefficient d’extinction) de matériaux diélectriques. Un moyen possible pour effectuer cette détermination consiste à utiliser un système de contrôle optique large bande afin d’enregistrer les spectres de transmission de l’empilement au fur et à mesure de sa formation. En effet, l’évolution temporelle, à chaque longueur d’onde, de ces spectres de transmission contient des informations quantitatives liées aux constantes optiques que nous souhaitons déterminer. - D’autre part, la mesure en temps réel du coefficient de réflexion (r) d’un empilement, en amplitude et en phase, lors de son dépôt. En effet, les méthodes de contrôles optiques en intensité présentent des limitations que la connaissance de l’information de phase devrait permettre de contourner. Cette mesure est réalisée par interférométrie holographique digitale à faible cohérence sur un substrat éclairé par sa face arrière et dont la face avant est équipée d’un masque annulaire. Ceci donne accès aux information de phase et d’amplitude recherchées tout en s’affranchissant des vibrations générées par le fonctionnement de la machine de dépôt ainsi que du mouvement de rotation à 120 tours par minute qu’effectue le porte-substrat. / The realization of complex filtering functions requires a perfect mastering of the deposition process as well as an accurate real time monitoring of the optical thickness of the deposited layers. During my PhD thesis, devoted to the development of new methods of in situ optical monitoring, I was particularly interested in two different subjects, namely:- On the one hand, the determination of the spectral dependence of optical constants (refractive index and extinction coefficient) of dielectric materials. A possible way to achieve this determination consist in using a broadband optical monitoring system in order to record the transmission spectra, in real time, of the stack during its formation. Indeed, the temporal evolution, at each wavelength, of these transmission spectra provide quantitative information related to the optical constants that we wish to determine.- On the other hand, the real time measurement of the reflection coefficient (r) of a stack, in amplitude and phase, during its deposition. Indeed, the optical monitoring methods based on intensity proprieties present some limitations that the knowledge of phase information should overcome. This measurement is performed by low coherence digital holographic interferometry on a substrate illuminated by its rear face and whose front face is equipped with an annular mask. This gives access to desired phase and amplitude information while avoiding the parasitic influence of the substrate motions induced by the vibrations of the deposition machine, and the rotation of the substrate holder at 120 rounds per minute. Couches minces optiques Interférométrie Détermination d'indice Contrôle optique Optical thin films Low coherence digital holography Interferometry Refractive index determination Optical monitoring.

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