Global ETD Search

421	Estudos das propriedades estruturais e ópticas de vidros teluritos / Studies of the structural and optical properties of the tellurite glasses Júlia Maria Giehl 25 February 2011 (has links) Vidros teluritos são considerados fortes candidatos para aplicações em lasers e óptica não linear devido a importantes características, como o elevado índice de refração, baixa energia de fônons, baixa temperatura de transição vítrea e sua fácil preparação. Neste trabalho foram produzidas amostras dos sistemas vítreos TeO2- ZnO-Na2O, TeO2-Nb2O5-Na2O e Te2O-Na2O incluindo ou não dopagens de AgNO3 para estudos estruturais e ópticos. As propriedades estruturais e os mecanismos de recombinação destes vidros foram estudados por meio das técnicas de ressonância paramagnética eletrônica, termoluminescência e correntes de despolarização termicamente estimuladas. Já as propriedades ópticas como o coeficiente de absorção linear, índice de refração linear e não linear foram estudadas por meio das técnicas de absorção óptica, acoplamento de prismas e varredura Z. Foram ainda desenvolvidos estudos da precipitação de nanopartículas de prata para o sistema TeO2-ZnO-Na2O com dopagens de AgNO3 com diferentes temperaturas de tratamento térmico. A caracterização das nanopartículas metálicas foi realizada por meio da técnica de absorção óptica auxiliada por microscopia eletrônica de transmissão e espectrometria de energia dispersiva. Foram observadas por ressonância paramagnética eletrônica quatro respostas paramagnéticas dos vidros irradiados com raio , sendo uma de natureza desconhecida e as outras três identificadas como g¹, g² e g³ atribuídas respectivamente ao centro de buraco do telúrio e do oxigênio, centro de buraco do oxigênio terminal e centro de elétron do telúrio. Foi proposto ainda um modelo para explicar os mecanismos de formação destes centros. A partir dos resultados de termoluminescência observou-se que os processos de recombinação destes centros de defeitos são não radioativos. Neste projeto foram estudados pela primeira vez na literatura os fenômenos de polarização e despolarização em vidros teluritos, com e sem irradiação gama, por meio da técnica de correntes de despolarização termicamente estimuladas. Quanto às propriedades ópticas, foi investigada a influência da adição de prata dos sistemas vítreos TeO2-ZnO-Na2O e TeO2-Nb2O5-Na2O em relação à energia do gap, a cauda de Urbach, índice de refração linear e não linear.Nos resultados de varredura Z do sistema vítreo TeO2-Nb2O5-Na2O foi observado o aumento da assimetria na curva com aumento da adição de AgNO3 Este fenômeno foi explicado por meio de uma adaptação do modelo de Sumi para processos não radiativos, responsáveis pelo aumento do caráter térmico do índice de refração não linear. Por fim um modelo foi criado para explicar a precipitação de nanopartículas de prata na matriz vítrea TeO2-ZnO-Na2O mediante tratamento térmico. / Tellurite glasses are considered powerful candidates for applications in lasers and nonlinear optics due to their important properties such as high refractive index, low phonon energy, relatively low glass transition temperature and easy glass production at room atmosphere. In this work glass samples of the systems ZnO-Na2O, TeO2-Nb2O5-Na2O and Te2O-Na2O were produced, including or not the AgNO3 doping for the structural and optical study purposes. The structural properties and the recombination mechanisms of these glasses were studied by means of the techniques of electron paramagnetic resonance, thermoluminescence and thermally stimulated depolarization currents. The optical properties such as the optical linear absorption coefficient, linear and nonlinear refractive index were studied by means of the optical absorption techniques, prism coupling and Z-scan. Further studies were developed on the precipitation of silver nanoparticles embedded in the glass system TeO2-ZnO-Na2O doped with AgNO3, by means of thermal treatments at different temperatures. The characterization of the metallic nanoparticles was carried out by optical absorption aided by transmission electron microscopy and dispersive energy spectroscopy. Four paramagnetic responses were observed by electron paramagnetic resonance of the -irradiated glasses, one not yet identified and the other three identified as g0, g1 and g3 attributed respectively to the tellurium-oxygen hole center, non-bridging oxygen hole center and tellurium electron center. A model to explain the formation mechanisms of these centers was proposed. The thermoluminescence results indicated that the recombination processes of these centers are non-radiative. This is the first study that deals with polarization and depolarization phenomena in tellurite glasses with and without gamma irradiation, by the technique of thermally stimulated depolarization currents. In what regards the optical properties of the glass systems TeO2-ZnONa2O and TeO2-Nb2O5-Na2O, the effect of the silver doping on the gap energy, Urbach tail, linear and nonlinear refractive indices were investigated. Through the Z-scan technique results of the glass system TeO2-Nb2O5-Na2O, an increasing asymmetry of the curve, with increasing AgNO3 content was observed. This phenomenon was explained through an adaptation of Sumi´s model for non-radiative processes, applied to a silver doped insulating glass, to explain the thermal character of the nonlinear refractive index. Finally, a model was developed to explain the silver nanoparticles precipitation in the TeO2-ZnO-Na2O glass matrix submitted to thermal treatment. Absorção óptica Centros de defeitos Índice de refração não linear Microscopia eletrônica de transmissão Nanopartículas de prata Ressonância paramagnética eletrônica Termoluminescência Varredura Z Vidros teluritos Defect centers Electron paramagnetic resonance Nonlinear refractive index Optical absorption Silver nanoparticles Tellurite glasses Thermoluminescence Transmission electron microscopy Z-scan
422	\"Processamento e análise de imagens para medição de vícios de refração ocular\" / Image Processing and Analysis for Measuring Ocular Refraction Errors Antonio Valerio Netto 18 August 2003 (has links) Este trabalho apresenta um sistema computacional que utiliza técnicas de Aprendizado de Máquina (AM) para auxiliar o diagnóstico oftalmológico. Trata-se de um sistema de medidas objetivas e automáticas dos principais vícios de refração ocular, astigmatismo, hipermetropia e miopia. O sistema funcional desenvolvido aplica técnicas convencionais de processamento a imagens do olho humano fornecidas por uma técnica de aquisição chamada Hartmann-Shack (HS), ou Shack-Hartmann (SH), com o objetivo de extrair e enquadrar a região de interesse e remover ruídos. Em seguida, vetores de características são extraídos dessas imagens pela técnica de transformada wavelet de Gabor e, posteriormente, analisados por técnicas de AM para diagnosticar os possíveis vícios refrativos presentes no globo ocular representado. Os resultados obtidos indicam a potencialidade dessa abordagem para a interpretação de imagens de HS de forma que, futuramente, outros problemas oculares possam ser detectados e medidos a partir dessas imagens. Além da implementação de uma nova abordagem para a medição dos vícios refrativos e da introdução de técnicas de AM na análise de imagens oftalmológicas, o trabalho contribui para a investigação da utilização de Máquinas de Vetores Suporte e Redes Neurais Artificiais em sistemas de Entendimento/Interpretação de Imagens (Image Understanding). O desenvolvimento deste sistema permite verificar criticamente a adequação e limitações dessas técnicas para a execução de tarefas no campo do Entendimento/Interpretação de Imagens em problemas reais. / This work presents a computational system that uses Machine Learning (ML) techniques to assist in ophthalmological diagnosis. The system developed produces objective and automatic measures of ocular refraction errors, namely astigmatism, hypermetropia and myopia from functional images of the human eye acquired with a technique known as Hartmann-Shack (HS), or Shack-Hartmann (SH). Image processing techniques are applied to these images in order to remove noise and extract the regions of interest. The Gabor wavelet transform technique is applied to extract feature vectors from the images, which are then input to ML techniques that output a diagnosis of the refractive errors in the imaged eye globe. Results indicate that the proposed approach creates interesting possibilities for the interpretation of HS images, so that in the future other types of ocular diseases may be detected and measured from the same images. In addition to implementing a novel approach for measuring ocular refraction errors and introducing ML techniques for analyzing ophthalmological images, this work investigates the use of Artificial Neural Networks and Support Vector Machines (SVMs) for tasks in Image Understanding. The description of the process adopted for developing this system can help in critically verifying the suitability and limitations of such techniques for solving Image Understanding tasks in \"real world\" problems. Aprendizado de Máquina Auto-refratores Engenharia Biomédica Entendimento de Imagens Hartmann-Shack Máquinas de Vetores Suporte (SVM) Optometria Redes Neurais Artificiais Sistemas Inteligentes Vícios Refrativos Artificial Neural Networks Auto-refractor Biomedical Engineering Hartmann-Shack Image Understanding Intelligent Systems Machine Learning Optometry Refractive Errors Support Vector Machines (SVM)
423	Laser ultrasonics in a diamond anvil cell for investigation of simple molecular compunds at ultrahigh pressures / Ultrasons laser dans les cellules à enclume de diamant pour l'étude des composés moléculaires simples à ultrahautes pressions Nikitin, Sergey 19 January 2015 (has links) Le travail que j’ai effectué durant ce doctorat est dédié à l’utilisation de l’ultrason des lasers sous haute pression physique. La recherche est construite en utilisant les récentes techniques de mesure de laser ultrasonique dans une enclume de diamant, conduisant à l’exploration de la propagation du son et de sa détermination suivant la vitesse de l’onde acoustique sous ultra-hautes pressions. La diffusion Brillouin a été appliquée ici pour déterminer l’épaisseur de la glace polycristalline compressée dans l’enclume à diamant sous pressions de mégabars. La technique permet d’examiner les caractéristiques des dimensions des inhomogénéités élastiques et la texture de la glace polycristalline, de ce fait ce processus est commun pour les surfaces de l’enclume à diamant avec des sous micromètres de résolution spatiale via les mesures des variations résolues dans le temps sur la vitesse de propagation du pouls acoustique voyageant dans l’échantillon compressé. Ceci a été appliqué pour mesurer la vitesse acoustique dans du H2O à l’état de glace jusqu’à 84 Gpa. La technique d’imagerie développée contient, pour chaque cristallite (ou groupe de cristallites) dans un ensemble homogène chimique transparent, des informations utiles sur son orientation ainsi que sur sa valeur élastique modulée par rapport à la direction de la propagation du son. Cela répand les bases pour une application réussite sur la déformation de solides sous haut-développement de modèles micromécaniques sous la pression à mégabars. Pour une plus longue durée, ce genre d’expériences répandus sur les minéraux de la terre et avec des températures basses ou hautes, assurerait un progrès important dans la compréhension de la construction de la cape terrestre, son évolution ainsi que celle d’autres planètes. / This PhD research work is devoted to the use of laser ultrasound in high-pressure physics. The research is done using the recently established technique of laser ultrasonic measurements in a diamond anvil cell which allows investigation of the sound propagation and determination of the acoustic wave velocities at ultrahigh pressures. Time domain Brillouin scattering was applied here to depth-profiling of polycrystalline aggregate of ice compressed in a diamond anvil cell to megabar pressures. The technique allowed examination of characteristic dimensions of elastic inhomogeneities and texturing of polycrystalline ice in the direction, normal to the diamond anvil surfaces with sub-micrometer spatial resolution via time-resolved measurements of variations in the propagation velocity of the acoustic pulse travelling in the compressed sample. It was applied to measure the acoustic velocities in H2O ice up to 84 Gpa. The developed imaging technique provides, for each crystallite (or a group of crystallites) in chemically homogeneous transparent aggregate, usable information on its orientation as well as on the value of the elastic modulus along the direction of the sound propagation. This extends the basis for a successful application of highly developed micromechanical models of solids deformation at mbar pressure. On long term, such experiments extended to earth’s minerals and high or low temperatures would insure a significant progress in understanding of convection of the earth’s mantle and thus evolution of this and other planets. Lasers ultrasonics à picosecondes Haute pression Cellules à enclume de diamant Matière condensée (H2O) Oscillations Brillouin Picosecond laser ultrasonics High pressure Diamond anvil cell Condensed matter (H2O) Brillouin oscillations Acoustic properties of H2O up to 84 GPa 534.22
424	Interferometrické měření fázových změn optického svazku v turbulenci / Interferometric measurement of phase changes of optical beam in turbulence Děcká, Klára January 2018 (has links) This master’s thesis deals with the impact of atmospheric turbulence on phase changes of a free space optical signal. This problematic is investigated by the interferometric method. A part of the thesis is focused on the phenomenon of atmospheric turbulence. Then the physical effect of interference is discussed and optical interferometers are described. The experimental part of the thesis is focused on measurement of phase shift of optical signal by interferometric method. The result of the thesis is to determine how phase shift of an optical beam depends on the strength of turbulence.
425	Analýza vlastností provozních kapalin / Analysis of operating fluids properties Chrobák, Jan January 2012 (has links) This diploma thesis is focused on introducing the mathematical and physical fundamentals of viskosity, density and refractive index of liquids and methods of its measurement. Based on available literatures specify review of areas in which the measurement of dynamic viscosity is used for evaluation the actual state of liquid materials. Discuss the possibility of using for example variables to determine the concentration of fat in milk and ethanol in alcoholic beverages. The sample of liquid to realize the practical measurements.
426	Charakterizace struktur připravených selektivním mokrým leptáním křemíku / Characterization of structures fabricated by selective wet etching of silicon Metelka, Ondřej January 2014 (has links) The task of master’s thesis was to perform optimalization process for preparing metal etching mask by electron beam litography and subsequent selective wet ething of silicon with crystalographic orientation (100). Further characterization of etched surface and fabricated structures was performed. In particular, attention was given to the morphology demonstrated by scanning electron microscopy and study changes of the optical properties of gold plasmonic antennas due to their undercut.
427	Characterizing optical and electrical properties of monolayer MoS2 by backside absorbing layer microscopy Ullberg, Nathan January 2020 (has links) Nanomaterials are playing an increasing role in novel technologies, and it is important to develop optical methods to characterize them in situ. To that end, backside absorbing layer microscopy (BALM) has emerged as a powerful tool, being capable to resolve sub-nanometer height profiles, with video-rate acquisition speeds and a suitable geometry to couple live experiments. In the internship, several techniques involving BALM were developed, and applied to study optical and electrical properties of the transition metal dichalcogenide (TMD) monolayer MoS2, a type of 2-dimensional (2D) crystalline semiconductor. A simulations toolkit was created in MATLAB to model BALM, a workflow to reliably extract linear intensities from the CMOS detector was realized, and 2D MoS2 was synthesized by chemical vapor deposition followed by transfer to appropriate substrates. BALM data of the 2D MoS2 was acquired and combined with simulations, giving a preliminary result for its complex refractive index at 5 optical wavelengths. In addition, the first steps towards coupling BALM with a gate biased 2D MoS2 field-effect transistor were explored. To complement BALM measurements, the grown samples were also characterized by conventional optical microscopy, scanning electron microscopy, atomic force microscopy, photoluminescence spectroscopy, and Raman spectroscopy. This work provides new additions to an existing platform of BALM techniques, enabling novel BALM experiments with nanomaterial systems. In particular, it introduces a new alternative for local extraction of optical parameters and for probing of electrical charging effects, both of which are vital in the research and development of nano-optoelectronics. backside absorbing layer microscopy BALM monolayer MoS2 TMD TMDC 2D materials nanomaterials nanotechnology refractive index extinction coefficient absorption coefficient field-effect transistor FET semiconductors optoelectronics optics raw image processing chemical vapor deposition CVD in situ characterization Nano Technology Nanoteknik Condensed Matter Physics Den kondenserade materiens fysik
428	Rolled-up Microtubular Cavities Towards Three-Dimensional Optical Confinement for Optofluidic Microsystems Bolaños Quiñones, Vladimir Andres 12 August 2015 (has links) This work is devoted to investigate light confinement in rolled-up microtubular cavities and their optofluidic applications. The microcavities are fabricated by a roll-up mechanism based on releasing pre-strained silicon-oxide nanomembranes. By defining the shape and thickness of the nanomembranes, the geometrical tube structure is well controlled. Micro-photoluminescence spectroscopy at room temperature is employed to study the optical modes and their dependence on the structural characteristics of the microtubes. Finite-difference-time-domain simulations are performed to elucidate the experimental results. In addition, a theoretical model (based on a wave description) is applied to describe the optical modes in the tubular microcavities, supporting quantitatively and qualitatively the experimental findings. Precise spectral tuning of the optical modes is achieved by two post-fabrication methods. One method employs conformal coating of the tube wall with Al2O3 monolayers by atomic-layer-deposition, which permits a mode tuning over a wide spectral range (larger than one free-spectral-range). An average mode tuning to longer wavelengths of 0.11nm/ Al2O3-monolayer is obtained. The other method consists in asymmetric material deposition onto the tube surface. Besides the possibility of mode tuning, this method permits to detect small shape deformations (at the nanometer scale) of an optical microcavity. Controlled confinement of resonant light is demonstrated by using an asymmetric cone-like microtube, which is fabricated by unevenly rolling-up circular-shaped nanomembranes. Localized three-dimensional optical modes are obtained due to an axial confinement mechanism that is defined by the variation of the tube radius and wall windings along the tube axis. Optofluidic functions of the rolled-up microtubes are explored by immersing the tubes or filling their core with a liquid medium. Refractive index sensing of liquids is demonstrated by correlating spectral shift of the optical modes when a liquid interacts with the resonant light of the microtube. In addition, a novel sensing methodology is proposed by monitoring axial mode spacing changes. Lab-on-a-chip methods are employed to fabricate an optofluidic chip device, allowing a high degree of liquid handling. A maximum sensitivity of 880 nm/refractive-index-unit is achieved. The developed optofluidic sensors show high potential for lab-on-a-chip applications, such as real-time bio/chemical analytic systems. info:eu-repo/classification/ddc/530 ddc:530 info:eu-repo/classification/ddc/535 ddc:535
429	Distributed Temperature Sensing Using Phase-Sensitive Optical Time Domain Reflectometry / Distribuerad Temperaturmätning Genom Fas-Känslig Optisk Tidsdomäns-Reflektometri Ek, Simon January 2020 (has links) This thesis explores and evaluates the temperature measuring capabilities of a phase-sensitive optical time-domain reflectometer (φ-OTDR), which exploits Rayleigh backscattering in normal single mode optical fibers. The device is constructed and its setup explained, and a protocol for making temperature measurements with it is developed. Performance tests are made and the device is shown to achieve fully distributed temperature measurements on fibers hundreds of meters in length with a spatial resolution of 1 m and a temperature resolution of 0.1 K. In addition, the capabilities of the device to measure normal strain in the measurement fiber are tested using the same approach, albeit with less success. The device is capable of very precise measurements, making it very sensitive to the environmental conditions around the measuring fiber but also susceptible to disturbances. Some discussion is had on how to avoid or deal with these disturbances. Furthermore, the technique is shown to be able to run in conjunction with other φ-OTDR measurement techniques from the same device simultaneously. / Det här examensarbetet utforskar och utvärderar förmågorna att mäta temperatur hos en fas-känslig optisk tidsdomän-reflektometer (φ-OTDR), som utnyttjar bakåtriktad Rayleigh-spridning i vanliga optiska singelmodfibrer. Anordningen konstrueras och dess komponentstruktur förklaras, och ett protokoll tas fram för att utföra mätningar med den. Prestandatester utförs och anordningen visas kapabel att göra fullt distribuerade temperaturmätningar längs hundratals meter långa fibrer, med en rymdsupplösning på 1 m och en temperaturupplösning på 0.1 K. Dessutom testas förmågan att mäta normaltöjning hos testfibern med samma metod, dock med mindre framgång. Anordningen är väldigt känslig för förhållandena i omgivningen runt mätningsfibern, vilket gör den kapabel till mätningar med mycket hög precision, men också mottaglig för störningar. Lite diskussion hålls kring hur dessa störningar kan undvikas eller hanteras. Vidare visas att mätningstekniken kan köras samtidigt som andra φ-OTDR-baserade tekniker från samma anordning. Applied physics Distributed optical fiber sensing Rayleigh scattering OTDR phase-OTDR Temperature Refractive index Strain Correlation RISE Single mode fiber SMF Tillämpad fysik Distribuerad optisk fibermätning Rayleigh-spridning OTDR phase-OTDR Temperatur Brytningsindex Töjning RISE Korrelation Singelmodfiber SMF Physical Sciences Fysik
430	Infrarotellipsometrische Untersuchungen zur oberflächenverstärkten Infrarotabsorption / (SEIRA - Surface Enhanced Infrared Absorption) Buskühl, Martin 23 June 2003 (has links) Auf dielektrische Substrate wurden Schichten aus Gold thermisch aufgedampft. Die Schichten wurden neben anderen Methoden wie AFM oder der Messung der Schichtleitfähigkeiten hauptsächlich mit Hilfe der spektroskopischen IR-Ellipsometrie (SIRE) in einem Schichtdickenbereich von 4 bis 60 nm systematisch untersucht. Aus den primär ermittelten ellipsometrischen Parametern tan(Psi) und Delta lassen sich der Brechungsindex n und der Absorptionsindex k bestimmen und auch weitere Größen wie z.B. der elektrische Widerstand bzw. die elektrische Leitfähigkeit errechnen. Die untersuchten Schichten lassen sich anhand der optischen, topographischen und elektrischen Eigenschaften in drei Gruppen einteilen: Dielektrische, aus isolierten Goldinseln bestehende Filme (4 bis 6 nm), Schichten in einem Übergangsbereich (8 bis ca. 16 nm), metallische Schichten (ab ca. 16 nm). Die dielektrischen Goldinselfilme zeigen optische Eigenschaften, die bislang für keine anderen Proben beschrieben worden sind. Der Brechungsindex n ist hoch (4 bis 9 bei 2400/cm) und der Absorptionsindex k klein (0 bis 4 bei 2400/cm). Beide Indizes sind spektral weitgehend konstant. Daß diese Filme dielektrische Eigenschaften besitzen, steht in direktem Widerspruch zur allgemeinen SEIRA-Literatur. Die Inselstruktur der dielektrischen Filme verursacht einen Verstärkungseffekt, der als Oberflächenverstärkte Infrarotabsorption (surface-enhanced infrared absorption - SEIRA) bekannt ist. Es zeigte sich, daß die optischen Konstanten der Filme einen erheblichen Einfluß auf die SEIRA-Verstärkung ausüben. Um Inselfilme mit reproduzierbaren optischen Eigenschaften herstellen zu können, wurde ein lithographisches Verfahren entwickelt. Auf einer geschlossenen, homogenen Goldschicht wurden monodisperse Nanopartikel aus Polystyrol (PS) in einer Monolage deponiert. Die PS-Nanopartikel dienten in einem trockenen Ätzprozeß im Ar-Plasma als lithographische Maske, um die darunterliegende Au-Schicht zu strukturieren. / Thin films were produced on dielectric substrates by thermal evaporation of gold in a high vacuum chamber. These films were investigated systematically in a range between 4 and 60 nm thickness. The method mainly applied was the spectroscopic IR-ellipsometry (SIRE), in addition to other methods like AFM or sheet resistance measurement. The primary results are the ellipsometric parameters tan(Psi) and Delta. They were used to determine the refractive index n and the absorption index k. Electrical parameters can also be calculated. Depending on the optical, topographical and electrical properties the population of different layers can be divided into three parts: dielectric films with isolated gold islands (4 to 6 nm), layers in a transient area (8 to ca. 16 nm), metal films (ca. 16 to 60 nm). The optical properties shown by dielectric gold island films were never before described for other samples. The refractive index n is high (4 to 9 at 2400/cm) and the absorption index small (0 to 4 at 2400/cm). Both indices are nearly constant in the spectral range. Directly in contrast to the SEIRA-literature the island films show dielectric properties. The island structure of the dielectric films gives rise to an enhancement effect called surface-enhanced infrared absorption (SEIRA). It could be shown that the optical constants of the island films have a considerable influence on the enhancement factors. A lithographic method was developed in order to find a way for manufacturing island films with reproducible optical properties. Monodispers polystyrene nanoparticles were deposited in a monolayer on a dense gold layer on a dielectric substrate. The layer of nanoparticles was used as a mask for a dry etch process in a reactive Ar-plasma. Infrarot-Ellipsometrie SEIRA optische Konstanten Inselfilme dünne Schichten Nanopartikel Monolagen Lithographie spectroscopic infrared ellipsometry optical constants refractive index absorption index gold island films SEIRA surface enhanced infrared absorption thin films sheet resistance langmuir blodgett films thermal evaporation E field elliptical polarisation Airy Fresnel effective medium approximation EMA gold nanoparticles contact angle lithography spincoating dipping 30 Chemie ddc:540

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