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Caracterização e aplicação de filmes finos de acetato butirato carboximetil celulose / Characterization and application of thin film of carboxymehtylcellulose acetate butyrateJorge Amim Júnior 16 September 2009 (has links)
Esta tese apresenta o estudo do efeito do solvente acetato de etila e acetona no comportamento em solução dos polímeros acetato butirato celulose (CAB) e acetato butirato carboximetil celulose (CMCAB) e nas características dos seus filmes finos obtidos pela técnica de revestimento rotacional ou por adsorção. As medidas de viscosidade e espalhamento de raio-X a baixo ângulo (SAXS) mostraram que o acetato de etila é um melhor solvente para CAB e CMCAB do que a acetona. A caracterização dos filmes foi feita através de medidas de elipsometria, microscopia de força atômica (AFM), espectrocospia vibracional por geração de soma de freqüências (SFG) e medidas de ângulo de contato. Os filmes de CMCAB obtidos por revestimento rotacional são mais espessos quando preparado em acetona do que em acetato de etila. Imagens de AFM mostraram que os filmes de CMCAB oriundos de soluções em acetato de etila são mais homogêneos e lisos do que aqueles preparados a partir de acetona. Medidas de SFG comprovaram a forte afinidade da acetona com SiO2/Si, mostrando que esse solvente cria uma nova camada para os filmes de CAB e CMCAB. Os valores de energia superficial calculados para CAB e CMCAB foram semelhantes ~ (49,0 ± 0,5) mJ/m², sendo a contribuição da componente dispersiva maior que a da componente polar. A adsorção das proteínas lisozima, albumina do soro bovino (BSA), concanavalina A e jacalina foram mais pronunciadas sobre os filmes de CMCAB do que sobre CAB. Indicando que a presença do grupo carboximetil (CM) contribui significativamente no processo de adsorção das biomoléculas. O efeito da rugosidade dos filmes de CAB e CMCAB sobre o processo de adsorção das proteínas foi estudado. No caso do CMCAB, a adsorção das proteínas foi mais pronunciada sobre o filme rugoso do que sobre o filme mais liso. Entretanto, para os filmes de CAB a rugosidade não teve um efeito significativo na adsorção das proteínas / The effect of ethyl acetate and acetone on the solution behavior of cellulose acetate butyrate (CAB) and carboxymehtylcellulose acetate butyrate (CMCAB) and on the characteristics of films obtained either by spin coating or adsorption was investigated. Viscosity and small angle X-ray scattering (SAXS) measurements showed that ethyl acetate is a better solvent than acetone for CAB e CMCAB. Films were characterized by means of ellipsometry, atomic force microscopy (AFM), sum frequency generation (SFG) and contact angle measurements. Spin-coated films of CMCAB from ethyl acetate solutions were thicker than those deposited from acetone solutions. AFM images revealed that CMCAB spin coated films from ethyl acetate solutions were homogeneous and flat. However, films obtained from solutions in acetone were very rough. SFG spectra showed that acetone binds strongly to SiO2/Si wafers, creating a new surface for CAB and CMCAB films. Surface energy values determined for spin-coated CAB and CMCAB were similar ~ (49,0 ± 0,5) mJ/m² with the dispersive component larger than the polar component. The adsorption of lysozyme, bovine serum albumin (BSA), concanavalin A and jacalin was more pronounced onto CMCAB films than that onto CAB films. Indicating that carboxymethyl group favored the adsorption process. The influence of surface roughness of CAB and CMCAB on protein adsorption has been investigated. In the case of CMCAB, protein adsorption was morepronounced onto rough films than that onto flat films. However, the roughness of CAB films exerted no significant influence on proteins adsorption
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Estudo da anisotropia de emissão luminescente de filmes poliméricos ordenados / Study of the luminescence emission anisotropy of polymeric ordered filmsRafael Henriques Longaresi 12 December 2012 (has links)
Processos fotofísicos em polímeros conjugados estão intimamente relacionados com a conformação dos segmentos moleculares. Filmes finos de polímeros conjugados apresentam uma anisotropia intrínseca resultante da conformação dos segmentos moleculares tornando esses materiais atrativos em estudos fotofísicos pela emissão polarizada apresentada quando excitado via radiação eletromagnética ou sob aplicação de uma diferença de potencial elétrico. Neste trabalho procuramos correlacionar o espectro de emissão fotoluminescente de filmes finos de um derivado do polifluoreno, nominalmente poli(9,9-dioctilfluorenil-2-7-diil) terminado com dimetilfenil, com sua anisotropia molecular. Filmes finos mecanicamente estirados sofrem um processo de reordenamento molecular induzindo a emissão de luz polarizada predominantemente na direção de estiramento. O estiramento ocasiona ainda um aumento no comprimento de conjugação efetivo dos segmentos moleculares influenciando no acoplamento elétron-fônon. Através da técnica de elipsometria, foi possível determinar os estados de polarização da luz (através dos parâmetros de Stokes) e medidas de fotoluminescência estacionária dependente da temperatura nos possibilitou aferirmos sobre o acoplamento elétron-fônon a partir do Princípio de Franck-Condon. Medidas de fotoluminescência de excitação (PLE) determinou que o espectro da PL consiste da sobreposição espectral de duas espécies emissoras: a espécie isolada e a espécie agregada. Para baixas temperaturas a PL apresenta picos de emissão bem definidos como resultado da dinâmica molecular do PFO correspondendo ao favorecimento de emissão da espécie isolada. Para temperaturas acima da temperatura de transição \'beta\' (~270 K), a emissão da espécie agregada é favorecida, ocorrendo uma possível transferência de energia da espécie isolada para a agregada. O estiramento induz um aumento do comprimento de conjugação, refletido na diminuição do fator de Huang-Rhys, \'S IND. ISO\'POT. LO\'|140 K = 0,40 para amostra não estirada e \'S IND. ISO\'POT.2LO\'| 140 K = 0,19 para a amostra com a maior taxa de estiramento, tornando o espectro mais resolvido. Amostras não estiradas sob excitação paralela ao estiramento apresentaram polarização total de emissão P = 3,4% linearmente paralela ao estiramento e anisotropia de fluorescência de r = 0,025 e amostras com estiramento L = 2Lo apresentaram P = 46,1% de emissão polarizada ao longo da direção de estiramento e uma anisotropia de fluorescência de r = 0,27. A emissão polarizada mostrou ser independente da temperatura. A anisotropia de fluorescência mostrou ser fortemente dependente do estiramento e da anisotropia para temperaturas acima de 340 K, temperatura característica de um inicio de transição de fase do PFO. / Photophysics processes in conjugated polymer are closely related with the molecular segments conformation. Conjugated polymers thin films has shown an intrinsic anisotropy due to the molecular segments conformation making this materials attractive in photophysics studies by its polarized emission when stimulated by light or biased. In this work, we correlated the photoluminescence spectra of a derivative PFO polymer thin films, namely poly(9,9-dioctylfluorenyl-2,7-diyl) end capped with dimethylphenyl, with the molecular anisotropy. Mechanically stretched thin films undergo a molecular rearrangement process of inducing emission of light predominantly polarized in the direction of stretch. The stretching also causes an increase in the effective conjugation length of the molecular segments influencing the electron-phonon coupling. By ellipsometry technique, it was possible to determine the polarization states of light (by the Stokes parameters) and temperature dependent stationary photoluminescence measurements enabled us to get the electron-phonon coupling from the Franck-Condon principle. Measurements of photoluminescence excitation (PLE) have determined that the PL spectrum consists of spectral overlap of the two emitting species: the isolated and aggregated species. At low temperatures the PL emission peaks has presented well-defined as a result of PFO molecular dynamics favoring the emission of the isolated species. For temperatures above the transition beta temperature (270 K), the emission of aggregated species is favored, causing a possible energy transfer isolated to aggregate species. The stretching induces an increase in the conjugation length, reflected in the decreasing Huang-Rhys factor \'S IND. ISO\' POT. LO\'|140 K = 0,40 to non-stretched samples and \'S IND. ISO\' POT. 2Lo\'| 140 K = 0,19 for the sample with the highest draw ratio, making the spectrum more resolved. Unstretched samples under polarized excitation parallel to the stretching showed total polarized emission P = 3,4% linearly parallel to the stretching and fluorescence anisotropy of r = 0,025 and the L = 2Lo samples showed P = 46,1% of polarized emission along the direction of stretching and fluorescence anisotropy r = 0,27. The polarized emission was found to be independent of temperature. The fluorescence anisotropy was found to be strongly dependent of stretching rates and for temperatures above 340 K, a characteristic onset temperature of phase transition of the PFO.
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Caracterização de filmes finos Sol-gel por elipsometria. / Characterization of sol-gel thin films by ellipsometry.Djalma de Albuquerque Barros Filho 04 June 1992 (has links)
Este trabalho experimental trata da caracterização de filmes sol-gel por elipsometria. A caracterização é um procedimento importante na determinação das propriedades físico-químicas de qualquer material como, por exemplo, filmes finos sol-gel. É possível produzir materiais de natureza diversa (vítreos, cerâmicos e cristalinos) pela técnica sol-gel. A elipsometria, por sua vez, é uma técnica recente na determinação do índice de refração complexo de um material. Os seus fundamentos teóricos tratam da natureza da luz polarizada e sua propagação através de um sistema ótico. No decorrer do trabalho, estes princípios possibilitarão descrever os sistemas óticos utilizados na parte experimental. Os filmes finos têm propriedades óticas e mecânicas que podem diferir bastante daquelas encontradas em certo volume do material. A análise das suas propriedades é feita através das medidas dos seguintes parâmetros: espessura, índice de refração e perfil de tensões. Um dos objetivos deste trabalho foi à observação da evolução das propriedades óticas e mecânicas durante o processo de densificação. Os filmes caracterizados são de sílica (SiO2), depositados sobre três tipos de substratos: vidro comum, sílica fundida, e silício. A caracterização deste material durante o processo de densificação térmica é dividida nas seguintes etapas: a) evolução estrutural através da medida da espessura, b) análise das porosidades pelo espectro do índice de refração, c) determinação das tensões. Como conseqüência, a montagem de um microelipsômetro que mede retardações óticas de filmes finos fez-se necessária e foi realizada durante este trabalho. A sua calibração é possível pela técnica de elipsometria nula. Assim sendo, pode-se especificar o equipamento, bem como aplicá-lo em diversas situações como: a) determinação do estado tênsil ou compreensivo de filmes de CeO2-TiO2; b) determinar tensões em filmes de sílica, c) análise de defeitos em filmes de um óxido misto de SnO2 In2O3(ITO). / This is an experimental work about the characterization of thin sol-gel films by ellipsometry. The characterization is an important procedure on determining the physical-chemical properties of many materials such as thin films produced by the sol-gel process. It is possible to produce several kinds of materials (vitreous, ceramic and crist.alline) by using the sol-gel process. The elipsometry, itself is a new technique for the determination of the complex refractive index of a material. Its theoretical principles concern about the nature of the polarized light, and its propagation through an optical system. These principles will be used to describe the optical systems of the experimental procedure along this work. The thin films have optical and mechanical properties that can strongly differ from those found for the material at bulk form. The analwses of these properties is carried out by the measurement of the following parameters: thickness, refractive index and stress profile. One of the goals of this work is to observe the evolution of the optical and mechanical properties during the densification process. The characterized films are of silica (SiO2) deposited on three kinds of substrate: ordinary glass, vitreous silica and single crystal silicon. The characterization of this material during the densification process is divided in t.he following steps: a ) structural evolution by thickness mesurement; b ) porosity study by refractive index spectrum; c) stress determination. As a consequence of this characterization, it was constructed, along the work, a microellipsometer which measures thin film retardation. Its calibration is possible by using the null ellipsometry technique. In this way, the equipment can be specified and applied to different situations such as: a) determination of the stress or compressive state for CeO2-TiO2; b ) stress measurements of silica films; c ) defect st.udy of ITO films SnO2 In2O3.
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Ellipsometry, reflectance and modulated spectroscopy of bulk and multi-layer semiconductor structuresThomas, Paul J. S. January 2000 (has links)
Vertical-cavity surface-emitting lasers (VCSELs) are complex multi-layer structures whose operating characteristics are highly sensitive to variations in layer thickness and composition. They contain an active region of one or more quantum wells sandwiched between highly reflecting mirrors. Non-destructive optical characterisation techniques including reflectance spectroscopy, spectroscopic ellipsometry and photomodulated reflectance have been used to examine these structures and various components of them. In addition, the relatively novel technique of photomodulated spectroscopic ellipsometry has been examined in comparison with photomodulated reflectance in the characterisation of bulk, multi-layer and quantum well material. The distributed Bragg reflectors of VCSELs provide the high reflectance required over a selected wavelength range. Optical measurements were used to determine important information concerning layer thicknesses and compositions, which were confirmed with X-ray diffraction and transmission electron microscopy. The techniques were also used to provide important information concerning growth and uniformity, which could be readily applied for feedback to growers or for device fabrication. Novel reflectance and photomodulated reflectance measurements made on a range of laser structures designed to operate over a range of wavelengths from 650 nm to 1 ?m were used to examine the characteristics of the reflectors and the active region of the lasers. The cavity mode observed clearly indicates the lasing wavelength, and the interaction of the cavity and quantum well has been interpreted using new lineshapes. The cavity mode and quantum well resonance observed in photomodulated reflectance has been shown to provide a clear indication of where devices can be fabricated successfully from non-uniform material. The identification of the cavity and quantum well features has also enabled important information concerning the changes in structure and therefore in device performance with temperature and pressure. Measurements have also been able to provide important information to explain the variation in performance of some devices.
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Anwendungsbezogene Weiterentwicklung der abbildenden Ellipsometrie / Applied enhancement of imaging ellipsometryRöling, Christian 07 September 2017 (has links)
No description available.
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Interactions between keratin and surfactants : a surface and solution studyLu, Zhiming January 2016 (has links)
Keratins are important structural components of hair and skin. There has been extensive study of keratins from the health and medical perspectives, although little work has been done to date to investigate their basic physicochemical properties in the form of biomaterials. The work presented in this thesis aimed to study surface and interfacial adsorption and solution aggregation of water soluble keratin polypeptides (made available by previous work within the research group). A range of physical techniques were employed including spectroscopic ellipsometry (SE), neutron reflection (NR), dual polarisation interferometry (DPI), quartz crystal microbalance with dissipation (QCM-D), dynamic light scattering (DLS) and small-angle neutron scattering (SANS).A major technical advantage of the neutron techniques is the use of hydrogen/deuterium substitution to enhance structural resolution. This approach was explored to study the interaction of keratins with both conventional surfactants and novel biosurfactants. The work presented comprises four results chapters. The first examines and compares four widely used interfacial techniques, SE, DPI, QCM-D and NR, by studying the adsorption of C12E6 at the silicon oxide/water interface. Whilst the data exhibits a large degree of consistency in the interfacially adsorbed amount, each technique helped reveal unique structural information with a high degree of complementarity. The second results chapter reports on findings regarding the properties of keratin polypeptides in surface adsorption and solution aggregation. It was found that the keratins adsorbed strongly on the surface of water, and formed rugby-shaped nanoaggregates in solution, the size and shape of which responded to salt concentration. The third results chapter reports on the interfacial behaviour of keratin/surfactants complexes in bulk solution, with cationic DTAB and anionic SDS as model conventional surfactants. It was found that both the electrostatic and hydrophobic forces contributed strongly to the surface adsorption processes. The final results chapter reports on interactions of a coated keratin film with novel biosurfactants including rhamnolipids (R1 and R2 with 1 and 2 sugar head(s), respectively) and Mel-C. The keratin films formed were found to be exceptionally stable and reproducible below pH 8, and these films could be widely used as model keratin substrates for screening their binding with surfactants and bioactive molecules. Both rhamnolipids and Mel-C exhibited strong adsorption onto the keratin substrate and interestingly, whilst R1 exhibited a completely reversible adsorption, R2 showed only a partially reversible adsorption. Mel-C showed some degree of irreversible adsorption similar to R2 and exhibited the strongest adsorption at around pH 4-5. These results show mild interactions with the keratin substrate, but indicate that the extent of adsorption and desorption could be manipulated by surfactant structure or solution conditions. The findings presented in this thesis are fundamental in aiding the development of the use of keratin polypeptides as biomaterials, in applications such as personal care. The work is also highly relevant to the understanding of the interactions between surfactants and keratin molecules at interfaces and in solution.
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Corrélation entre les propriétés optiques, la structure électronique et la morphologie des semi-conducteurs organiques pi-conjugués / Correlation between optical properties, electronic structure and morphology of pi-conjugated organic semiconductorsBencheikh, Fatima 07 December 2015 (has links)
Le développement de la technologie des cellules photovoltaïques organiques nécessite des compétences diverses liées à l’ingénierie moléculaire, à l’ingénierie des interfaces, au contrôle et à la caractérisation de la morphologie des films, à l’optimisation de la structure du dispositif et à la compréhension de la photo-physique des matériaux utilisés. Dans ce contexte, le travail présenté dans cette thèse contribue à la compréhension des propriétés photo-physiques des matériaux organiques π-conjugués et propose des outils de caractérisations optiques pour le suivi de la morphologie de ces matériaux. Dans un premier temps, une méthodologie rigoureuse de détermination des indices optiques des films organiques par ellipsométrie a été proposée. Les modèles utilisés en ellipsométrie ont ainsi été choisis en tenant compte des propriétés physiques des matériaux organiques π-conjugués ce qui a permis de remonter à la structure électronique de dérivés de fullèrenes (PC60BM et PC70BM). Dans un second temps, nous avons associé des données ellipsométriques à des mesures complémentaires d’absorbance et de photoluminescence dans le cas de deux copolymères (PTB7 et PTB7-Th) en films et en solutions afin d’isoler les interactions inter et intra-chaînes. Nous avons démontré que la photo-physique de ces copolymères diffère de celle du P3HT. Nous avons montré que même en solution dans le chlorobenzène, le PTB7 et le PTB7-Th s'agrègent fortement. Ces agrégats, de type H, se cassent plus facilement dans les solutions de chlorobenzène à base de PTB7-Th que dans celles à base de PTB7. / The development of organic photovoltaic cell technology requires various skills related to the molecular engineering, interface engineering, controlling and characterizing the morphology of the films, device structure optimization and understanding of photophysics of the materials. In this context, the work presented in this thesis contributes to the understanding of the photophysical properties of π-conjugated organic materials and propose optical characterizations tools for probing the morphology of these materials. First, a rigorous methodology for determining refractive indices of organic films by ellipsometry has been proposed. The models used in ellipsometry have been chosen by taking into account the physical properties of π-conjugated organic materials which allow the determination of the electronic structure of fullerene derivatives (PC60BM and PC70BM). Secondly, we associated ellipsometric data to complementary measurements of absorbance and photoluminescence in the case of two copolymers (PTB7 and PTB7-Th) in films and solutions in order to isolate inter and intra-chain interactions. We have demonstrated that the photophysics of these copolymers differs from the P3HT. We have shown that even in solution in chlorobenzene, the PTB7 PTB7-Th aggregate strongly. These aggregates, H-type, break more easily in the chlorobenzene solutions based of PTB7-Th as in those based on PTB7.
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Mécanisme d'action d'un nouveau peptide lantibiotique de Bacillus clausii sur des modèles de membranes bactériennes : une approche par résonance magnétique nucléaire et par imageries optiquesToupé, Jeannot 23 February 2012 (has links)
La clausine est une bactériocine sécrétée par la souche probiotique Bacillus clausii. Elle est active contre des bactéries multi-résistantes aux antibiotiques, comme le MRSA (Staphylococcus aureus résistant à la méticilline) et le VRE (Enterococcus résistant à la Vancomycine). Nous avons produit, purifié, caractérisé la structure de la clausine et effectué des expériences d'interaction par Résonance Magnétique Nucléaire (RMN) du liquide. La clausine s'est révélée être un nouveau peptide maturé de la famille des lantibiotiques. Il est composé de trois ponts thioéthers ou lanthionines, d'un pont aminovinyle et de trois résidus deshydratés. La clausine possède une structure tri-dimensionnelle bi-modulaire, similaire à la fois à la nisine et à la mersacidine. Comme ces dernières, elle s'est révélée se lier aux lipides bactoprénols, tels que le lipide II (LII) et l'UndécaprénylPyroPhosphate (UPP), empêchant ainsi la formation de la paroi bactérienne. Nous nous sommes ensuite focalisés sur le mode d'action de la clausine sur des modèles de membranes bactériennes. Dans ce but, nous nous sommes basés sur la composition phospholipidique de trois bactéries affectées par la clausine : Staphylococcus aureus, Micrococcus Luteus et Bacillus Megaterium. Nous avons utilisé la RMN du solide du 2H et du 31P pour caractériser l'effet de la clausine sur la dynamique membranaire, ainsi que l'éllipsométrie et l'épifuorescence avec le LII-dansylé pour visualiser son effet sur des monocouches lipidiques. La clausine seule a entraîné une désorganisation membranaire à fort ratio peptide/lipide et formé des domaines. Nous avons souligné l'importance de la tête polaire des bactoprénols sur la dynamique lipidique. Nous avons finalement observé un effet synergique de la clausine avec les bactoprénols, suggèrant la formation de domaines « raft-like » organisés en réseau avec l'UPP ou en fibre avec lelipide II. Nos résultats in vitro permettent d'expliquer les divisions cellulaires aberrantes observées in vivo par un mécanisme de séquestration des bactoprénols par les peptides lantibiotiques. / Clausin is a bacteriocin secreted by the probiotic strain Bacillus clausii. It is active against multi-resistant bacteria to antibiotics, such as MRSA (Methicillin-Resistant Staphylococcus Aureus) and VRE (Vancomycin-Resistant Enterococcus).We have produced, purified, characterized the structure of Clausin and performed binding studies with Liquid-state Nuclear Magnetic Resonance (NMR). Clausin has been shown to be a new mature peptide from the lantibiotic family. It consists of three thioether rings called lanthionines, an aminovinyl ring and three dehydrated residues. Clausin displays a bi-modular three-dimensional structure similar to nisin as well as to mersacidin. It binds as well to bactoprenol lipids, such asLipid II (LII) and UndecaprenylPyroPhosphate (UPP), blocking then bacterial cell wall formation.We have then focused our attention to the action mode of Clausin on bacterial membrane models. For this purpose, we have used the phospholipid composition of three bacteria affected by Clausin: Staphylococcus aureus, Micrococcus Luteus and Bacillus Megaterium. We have used 2H and 31P Solid-state NMR for characterizing the Clausin effect on lipid dynamics, as well as ellipsometry and epifluorescence with dansylated-LII for visualizing its effect on lipid monolayer. Clausin alone has led to membrane desorganization at a high peptide/lipid ratio and formed domains. We have further underlined the importance of the polar head-group of bactoprenols on lipid dynamics. We have finally observed a synergic effect of Clausin with bactoprenols on lipid dynamics suggesting the formation of « raft-like » domains organized in network with UPP or evenfiber with LII. Our in vitro results allow us to explain the aberrant bacterial cell division observed in vivo through a mechanism of bactoprenol sequestration by lantibiotic peptides.
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Broadband IR stokes polarimetry for the electro-optic characterization of cadmium zinc tellurideFitzGerald, William 21 December 2017 (has links)
The infrared portion of the electro-magnetic spectrum is a challenging region in which
to perform optical techniques, limited by both device efficiency and availability. In
this dissertation, a new optical technique is introduced to facilitate polarization state
measurement across the mid-IR. In addition, cadmium zinc telluride (CZT) is investigated
as a potential new material suitable for electro-optic devices which function in the mid-IR,
while also being characterized by other optical analysis methods.
Thin film interference is discussed as it relates to optical techniques and electronic
devices. A Stokes polarimeter is used to study the oxide development on the surface of
CZT electronic devices, and the effect of natural thin films on substrates used in optical
techniques is discussed. In particular, the impact of thin film interference on sum-frequency generation spectroscopy measurements of methyl group orientation are assessed.
An FTIR source operated in step-scan mode is used to create a broadband, IR Stokes
polarimeter which measures the polarization state of light from 2.5-11 μm simultaneously.
Its design, involving two photo-elastic modulators and an analyzer, and theory are described in detail. This instrument is demonstrated by measuring linearly polarized light, and is applied to the measurement of the refractive index dispersion of quartz from 2.5-4 μm, which goes beyond the limits of literature values.
Electro-optic crystals of CZT with electrodes of gold and indium are characterized
at each wavelength in the mid-IR in terms of their electro-optic effects and apparent
depolarization using the Stokes polarimeter. The material displays high-resistivity,
allowing it to be operated with up to 5 kV applied DC voltage. The linear electro-optic
effect is observed, but overall properties of the samples are found to be heavily dependent
on the choice of metal for the electrodes. With a high-work function electrode material
in gold, a large depletion region is created when high voltage is applied, which leads to a
gradient in electric field throughout the material. This causes a beam of light transmitted through it to experience a distribution of electro-optic behaviours, which leads to overall
depolarization of the light. Indium’s work function is lower than gold’s, and is closer to
that of CZT. With indium electrodes, the electric field is found to be more consistent, and
behaviour is much closer to ideal.
The electro-optic effect of CZT is also characterized with AC applied voltage in order
to assess its suitability to AC applied voltage applications. The power supply used for
this was limited to 60 Hz, which precludes a complete characterization in this regard, but
unexpected behaviour was seen. A methodology utilizing an oscilloscope and FTIR was
developed in order to more completely understand the material response, and divergent
behaviour with positive and negative voltage was found. / Graduate / 2018-12-18
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TEMPERATURE-DEPENDENT OPTICAL PROPERTIES CHANGES OF THIN FILMS AND MODELING USING APPLICABLE ELLIPSOMETRY NEAR IR REGIONChangkyun Lee (11820602) 19 December 2021 (has links)
<div>Thin films with selective spectral properties have great potential for use in applications such as solar thermal absorbers, selective thermal emitters, thermal barrier coatings, and thermophotovoltaics. Understanding the dependence of their optical properties with temperature is crucial for practical applications. Relatively less-used films with high thermal stability, high refractive index, and infrared transparency, such as cerium oxide CeO2 and magnesium oxide (MgO) have not been studied extensively for high-temperature applications. In this paper, CeO2, MgO, and several multilayer samples containing these compounds will be studied their change of optical properties with increasing temperature across the visible and infrared spectrum. In this work, I introduce Spectroscopic Ellipsometry (SE) to analyze dielectric constants of films and measure its thickness at multiple incident angles in visible and near-Infrared (IR) wavelengths both at room temperature and elevated temperatures. Using ellipsometry, several single and multilayer thin films (CeO2 and other transparent materials-based) have been measured their dielectric constants and thickness at room temperature and high temperature up to 500°C using thermal control stages called INSTEC. The change of their optical properties with temperatures has been characterized using theoretical modelling. Fitting their optical properties have been observed by changing thickness of each layer and calculating the corresponding Cauchy parameters in transparent material. Finally, FTIR measurements will be used to further characterize direct emission of these films at higher temperatures. This will be performed at room temperature and high temperature up to 1400 °C.</div>
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