Global ETD Search

241	Photo-inscription de guides d'onde dans les verres de chalcogénures / Waveguide photo-writing in chalcogenide glasses Dematteo Caulier, Ophélie 27 May 2014 (has links) Les travaux de cette thèse ont eu pour but la conception de guides d'onde dans des verres de chalcogénure, par une technique de photo-inscription. Celle-ci consiste à focaliser un laser femtoseconde dans le matériau et de l'interaction lumière-matière, il en résulte une variation d'indice de réfraction (Δn) permanente. Cette technique est rapide, en une seule étape et ne nécéssite pas l'intervention de processus chimique. De plus, elle permet la réelle conception de dispositifs en trois dimensions. Deux verres ont été étudiés, le GeGaS et l'As₂S₃. Les phénomènes responsables de ces modifications ont été étudiés et décrits pour chacun des verres. Dans le premier verre, la propagation d'un faisceau sous la forme de filament a été mise en évidence. Du déplacement des charges, il découle une modification de la structure du réseau vitreux qui conduit à une variation d'indice positive. Cette As₂S₃ a été étudiée et il a été montré que son amplitude est contrôlable au travers du taux de répétition du laser ou de la vitesse de déplacement de l'échantillon, alors que son diamètre reste constant indépendamment des conditions expérimentales. Dans le deuxième verre, des effets d'origine thermique ont été mis en évidence. Pour ce verre d'As₂S₃, alors que les Δn obtenues classiquement sont négatives, l'utilisation d'une trajectoire hélicoïdale innovante a mené à la réalisation de guides d'onde. Après une analyse systématique des différents paramètres expérimentaux, une maîtrise de l'amplitude de Δn et du diamètre du guide a été obtenue. Ainsi, des guides d'ondes monomodes, avec des propriétés équivalentes à l'état de l'art, ont été réalisé en une seule étape. / This thesis aimed at the waveguide conception in chalcogenide glass, with a photo-writing technique. This one consists on a laser focus into the material, from the light-matter interaction it results a permanent refractive index variation (Δn). This technique is fast, single step and it doesn't require any chemical process intervention. Furthermore it really enables the three dimensional devices design. Two glasses were studied, one is the GeGaS and the other the As₂S₃. The responsible phenomena of these modifications was studied and described for each of the glasses. In the first one, the beam propagation on a filament form was highlighting. From the charge displacement, it ensues a modification of the glassy network structure which leads to a positive index variation. This Δn was studied and it was shown that its amplitude is controllable trhough the laser repetition rate or with the sample displacement velocity while its diameter remains constant independently of the experimental conditions. Into the second glass, effects of thermal origin were highlighted. For this As₂S₃ glass, while classical photo-writing Δn are negative, the use of an innovative helical trajectory led to the waveguide conception. After a systematic analysis of the experimental parameter influence, a control of the Δn amplitude and of the waveguide diameter was obtaines. So, monomode waveguides, with equivalent properties to the state-of-the-art, were realized in a single step. Photo-inscription Interaction laser-matière Verre Chalcogénure Filamentation Effet thermique Inscription hélicoïdale Photo-writing Interaction Laser-Material Glasses Chalcogenide Filament Thermal effect Helical inscription
242	Sur l'équation de Gross-Pitaevskii uni-dimensionnelle et quelques généralisations du flot par courbure binormale / On the one-dimensional Gross-Pitaevskii equation and some generalisations of the binormal curvature flow Mohamad, Haidar 23 June 2014 (has links) Ce travail est une contribution à l'étude des équations de Schrödinger non-linéaires (NLS) en dimension un d'espace. De telles équations interviennent notamment comme modèles dans plusieurs domaines de la physique mathématique, tels l'optique non-linéaire, la superfluidité, la supraconductivité et la condensation de Bose-Einstein.Cette thèse contient trois thèmes connexes inclus dans les chapitres 2, 3 et 4. Dans la première partie (chapitre 2), on s'intéresse à la construction des solutions en multi-solitons de l'équation de Gross-Pitaevskii (NLS défocalisante avec non-linéarité cubique), comme une superposition approximative des ondes progressives (solitons). Cette partie contient également une description détaillée des interactions entre les solitons. Ces résultats sont obtenus en exploitant l'intégrabilité de l'équation de Gross-Pitaevskii et son système de Marchenko associé.La deuxième partie (chapitre 4) clarifie les relations entre la formulation classique et la formulation dite hydrodynamique de l'équation de Gross-Pitaevskii. Cette dernière a un sens lorsque la solution ne s'annule jamais dans le domaine spatial. La dernière partie (chapitre 3) est consacrée à l'étude du problème de Cauchy d'une famille d'équations aux dérivées partielles quasi-linéaires qui généralise l'équation du flot par courbure binormal d'une courbe dans l'espace euclidien de dimension trois. Cette dernière est liée formellement à NLS par la transformation de Hasimoto. Dans notre généralisation, la vitesse d'un point de la courbe est toujours dirigée dans la direction du vecteur binormal, mais son amplitude peut dépendre de l'abscisse curviligne ainsi de la position dans l'espace. Notre approche pour prouver l'existence est le suivant: schéma semi-discret (discret en espace et continu en temps), obtention de bornes sur les problèmes discrets et argument par compacité. Un théorème de comparaison entraîne l'unicité. / This work is a contribution to the study of nonlinear Schrödinger equations (NLS) in the one-dimensional space. Such equations arise in many physical fields, including nonlinear optics and Bose-Einstein condensation. The thesis contains three connected themes included in chapters 2, 3 and 4. The first part (chapter 2) constructs multi-soliton solutions of the Gross-Pitaevskii (or defocussing NLS) equation, as an approximate superposition of traveling waves (solitons). This part contains also a detailed description of the interactions between solitons. These results are obtained by exploiting the integrability of the the Gross-Pitaevskii equation and its associated Marchenko system. The second part (chapter 4) clarifies the relations between the classical formulation and the so-called hydrodynamical formulation that only has a meaning when the solution does not vanish anywhere in the spatial domain The last part (chapter 3) of this thesis concerns existence and uniqueness results for a family of quasi-linear partial differential equations that generalize the equation of the binormal curvature flow for a curve in the three-dimensional space. The latter equation is in connection to the focussing cubic NLS by Hasimoto transformation. In our generalization, the velocity of a point on the curve is still directed along the binormal vector (so that in particular the length of the curve is preserved) but the magnitude of the speed is allowed to depend both on the curvilinear parameter and on the position in space. Existence is proven using spatial discretization together with some a priori bounds on the approximate solutions. Uniqueness follows from a comparison theorem. Equations de Schrödinger non-linéaires Equation de Gross-Pitaevskii Théorie de scattering Théorie spectrale Vortex filament Schéma semi-discret Nonlinear Schrödinger equations Gross-Pitaevskii equation 510
243	Tepelná vodivost u nestandardních materiálů pro TZB / The thermal conductivity of non-standard materials for HVAC Běťák, Karel January 2019 (has links) The thesis is focused on the determination of the thermal conductivity coefficient on the group of thermoplastics used for 3D printing (PLA, ABS, PETG). The thesis describes the materials used for 3D printing and the design of air conditioning for the grocery store. A stationary method was used for the solution. The heat flux passing through the sample was measured and the thermal conductivity coefficient was calculated. By the chosen method, we determined the coefficient is = 0,11-0,13 W/(m·K). Comparison with the available results of other methods and authors has shown that the resulting coefficient is lower. Based on the data, it is possible to compare the thermal properties of 3D printing materials.
244	Zkoušky vybraných vlastností materiálů pro 3D tisk / Testing of selected material properties for 3D printing Čáslavský, František January 2019 (has links) This thesis deals with 3D printing, materials used for 3D printing, testing of the materials and learning their real parameters. Goal of the thesis is comparing selected materials, executing series of mechanical test and selecting suitable material for printing high-quality plastic parts for use in automobiles, especially for reproduction of parts that are no longer made for oldtimers and for use in motorsport.
245	Navíjecí stroj / Filament Winding Machine Dorňák, Michal January 2009 (has links) The aim of this diploma thesis is the proposal of solution of three-axial winding machine for winding technology of rotary profile. Winding materials are continual springs of carbon, aramid or glass fibre impregnated by resin. The main construction change of the machine compared to commercial available solutions is the use of linear motor as a frame element instead of roller screws or toothed chain. Linear motors have higher dynamics of the movement and they can reach higher speed compared to other solutions, which guarantee increase of the machine productivity. The main importance is put not only on the functionality but also on the low price of this solution. The 3D model of the mechanism is created in the program Inventor 2009.
246	Carbon filament yarn-based hybrid yarn for the heating of textile-reinforced concrete Hasan, M. M. B., Offermann, M., Haupt, M., Nocke, A., Cherif, Ch. 09 October 2019 (has links) In this study, the application of carbon filament yarn (CFY)-based conductive hybrid yarn as the heating element in a textile-reinforced concrete structure is reported. For this purpose, a hybrid yarn having a core-sheath structure (the core is made of carbon filament yarn and the sheath consists of a mixture of short glass and polypropylene fibres) is manufactured by DREF-2000 spinning technique and integrated into textile structure by tailored fibre placement method. Heat can be generated in the concrete structure by passing electric current through the conductive carbon filament yarn core of the hybrid yarn using the principle of resistive heating, where the sheath acts as the protection and isolation layer. From the initial investigations made on a small concrete specimen, important information is gathered and a large concrete slab with integrated conductive hybrid yarn is manufactured. The heat ability and the comfort level of the manufactured concrete slab are measured. The investigations have revealed the potential of using such hybrid yarn for a pointwise heating of the concrete surface for possible appliance in outdoor furniture. info:eu-repo/classification/ddc/670 ddc:670
247	Identification of altered Ras signaling and intermediate filament hyperphosphorylation in giant axonal neuropathy Martin, Kyle B. January 2015 (has links) Indiana University-Purdue University Indianapolis (IUPUI) / Giant axonal neuropathy (GAN) is a rare genetic disease that causes progressive damage to the nervous system. Neurons in GAN patients develop an abnormal organization of cytoskeletal proteins called intermediate filaments (IFs), which normally provide strength and support for the overall cell structure. The irregular IF structure in GAN patient neurons leads to a progressive loss of motor skills in children and subsequent death in adolescence. GAN is caused by reduced levels of the gigaxonin (Giga) protein. Giga functions to control the degradation of other cellular proteins, and the loss of Giga in GAN cells results in significantly elevated levels of the galectin-1 (Gal-1) protein. Gal-1 stabilizes the active form of the Ras signaling protein, which functions as a molecular switch to regulate the phosphorylation and subsequent organization of IFs. The connection between these pathways led us to propose that Giga regulates IF phosphorylation and structure by modulating Ras signaling through the degradation of Gal-1. Using GAN patient cells, we demonstrated that restoring Giga reduced Gal-1 protein levels, decreased IF phosphorylation, and reestablished normal IF organization. Similar effects of reduced IF phosphorylation and improved IF structure were also obtained in GAN cells by directly decreasing the protein levels of either Gal-1, or downstream Ras signaling proteins. Taken together, these results demonstrate that the loss of Giga induces Gal-1 mediated activation of Ras signaling, thereby leading to the increased IF phosphorylation and abnormal IF structure observed in GAN cells. Identification of aberrant Ras signaling is significant because it is the first to specify a mechanism by which the loss of Giga leads to the development of GAN and provides targets for novel drug therapies for the treatment of this currently immedicable genetic disease. Giant axonal neuropathy Gigaxonin Galectin-1 Intermediate filaments Phosphorylation Nerves, Peripheral -- Diseases Neuropathy Cykoskeletal proteins Intermediate filament proteins Cytoplasmic filaments Proteins -- Metabolism -- Disorders Proteins -- Pathophysiology Proteins -- Synthesis
248	Differentiation of <em>Bacillus</em> Endospores from Gas Chromatography-Mass Spectrometry of Biomarkers Produced by Thermochemolysis Methylation Truong, Tai Van 20 April 2011 (has links) (PDF) Methods for fast, simple detection of biomarkers to detect and differentiate closely related Bacillus endospores including Bacillus anthracis (BA), Bacillus thuringiensis (BT), Bacillus atrophaeus (BG), and Bacillus cereus (BC) using thermochemolysis and methylation (TCM), coiled wire filament (CWF), solid phase micro extraction (SPME) and gas chromatography-mass spectrometry (GC-MS) were developed. The main biomarkers detected and used for differentiation include dipicolinic acid methyl ester (DPAME), fatty acid methyl esters (FAMEs), 3-methyl-2-butenoic acid methyl ester (3M2BAME), 2-butenoic acid methyl ester (2BAME), and several methylated sugars. TCM of endospores was performed based on hydrolysis and methylation at elevated temperature after the endospores were mixed with sulfuric acid (H2SO4) with or without addition of tetramethylammonium hydroxide (TMAH) in methanol (MeOH). TCM products were then introduced into a heated GC injector port using a coiled wire filament (CWF) or solid phase microextraction (SPME) for detection and differentiation of the endospores by GC-MS.The CWF, which consisted of a tiny platinum helical wire coil attached to a retractable plunger that moved the coil in and out of a syringe needle housing, allowed for sampling to be accomplished by dipping the CWF in an endospore sample suspension, evaporating the suspension liquid, and then introducing the CWF into the injection port to enable on-line TCM. New SPME techniques, including half-half extraction, coated-needle extraction (CNE), and a new home-made polymer coated needle were used to speed up solid phase micro extraction of biomarkers produced from TCM. These simplified the detection of anthrose and other biomarkers. TCM with a CWF and TCM with SPME produced high intensity profiles of DPAME, FAMEs, 2BAME, 3M2BAME and methylated sugars. While the presence of DPAME can be used for the general detection of endospores (Bacillus and Clostridium) and the presence of 3M2BAME for the detection of BA, specific saturated and unsaturated C15, C16, and C17 fatty acid methyl esters and methylated sugars provide additional information for differentiating various Bacillus species grown at different temperatures and in different media. DPAME was detected in samples containing as few as 2,500 and 6,000 endospores using TCM-CWF with and without a concentration step, respectively. GC-MS peak area percent reproducibility for FAMEs using TCM and CWF varied from 3 to 13% (RSD). Better than 97% correct predictability of Bacillus species identity was obtained from a blind experiment consisting of 145 samples using DPAME and specific FAMEs. Conventional SPME and a modified form of "in-needle" extraction allow for detection of the biomarkers in less than 35 min. The detection limits with SPME sample introduction injection were approximately 5 x 103 endospores.Using these approaches, differentiation of Bacillus endospores and other biological agents grown under different conditions were based on the following characteristics: (1) presence of DPAME and specific FAMEs (iso or anteiso C15:0 and iso or anteiso C17:0) in Bacillus endospores, (2) unique presence of 3M2BAME (anthrose by-product) in BA, (3) absence of 2-butenoic acid methyl ester in BG, and (4) presence and absence of specific methylated monosaccharides in various Bacillus species. Clostridium endospores and non-sporulating bacteria, such as Yersinia pestis (YP) and Francisella tularensis (FT) could also be easily distinguished from Bacillus endospores based on the presence and absence of several specific sugar derivatives and fatty acid methyl esters (FAMEs), such as iso or anteiso C15:0 and iso or anteiso C17:0, and > C18 FAMEs which were simultaneously produced during TCM. Bacillus Endospores Anthrax Differentiation Thermochemolysis methylation Solid phase micro extraction Coiled wire filament Coated-needle extraction Gas chromatography-mass spectrometry Dipicolinic acid Fatty acid Sugars Anthrose Biochemistry Chemistry
249	Unravelling the Mechanical Symphony: Exploring YAP and β-catenin Interactions in Breast Cancer Metastasis Implications Su, Zhi Hong January 2023 (has links) Breast cancer metastasis is one of the reasons why this type of cancer is destructive even after treatment as it tends to move from one organ to another increasing the risk factor for an individual. In the metastatic cascade, the tumour undergoes many different types of stress, including extracellular (ECM) stiffness. Key proteins that have been linked to the change in stiffness of the ECM are YAP and β-catenin. Both functions similarly in the manner that they need to translocate to the nucleus and bind to their respective transcription factors in order to activate their downstream genes. In parallel this seems to be on a stiffness dependent manner. Therefore, the hypothesis is that β-catenin is able to compensate for YAP function when YAP is downregulated in a stiffness dependent manner. In this work, results show a significant increase of YAP and β-catenin translocation to the nucleus of MDA-MB-231 cells when they are subject to the stiffer substrate in comparison to the softer substrate indicating increase gene expression of their respective pathways. The effect of the stiffness was then analyzed by doing single knockdown experiments with siRNA. To investigate the response of β-catenin, knocking down YAP was done, and it was shown that β-catenin translocation significantly increased on the softer matrix, while stiffer matrix showed no significant difference. Downstream gene expression also confirmed this idea with CTGF being downregulated with β-catenin knockdown and AXIN2 being downregulated with YAP knockdown. In the cell behavioural aspect, only when the double knockdown of YAP and β-catenin was done, the migration and proliferation rate had significant lowered. This echoes the idea further of the compensating effects of β-catenin to YAP. In addition, the exploration of the cytoskeleton network was investigated, as this is a key component in protein pathways, by treating the cells using LatA and Blebbistatin, affecting F-actin and myosin-II respectively. Knowing the critical role of cytoskeletal proteins in mechanotransduction, the hypothesis is that actin filaments and myosin-II mediate the YAP & β-catenin nuclear translocation activation. Findings show the direct relationship between F-actin and YAP as actin polymerization state significantly decreased when YAP was knockdown in a similar manner to when LatA was added. When myosin-II was added, both YAP and β-catenin nuclear translocation were affected, indicating its potential role in mechanotransduction. Furthermore, it was found that cell confluency and PIEZO1 activation had significant effects in YAP & β-catenin translocation. By seeding the cells with different densities, the β-catenin signalling could be visualized with IF staining, with the conclusion that at high confluency, the β-catenin translocation was alleviated. For the PIEZO1 studies, results indicate that PIEZO1 is an upstream regulator of YAP by doing single knockdown experiments and subsequently analysing YAP signalling. The findings underscore the potential significance of β-catenin as a modulator of mechanotransduction in the absence of YAP, showcasing the complexity of the protein signalling network orchestrating cellular response due to mechanical cues. Unravelling these protein interplay could offer novel insights into therapeutic targets for breast cancer mechanotransduction. Ultimately, this research adds to the understanding of the intricate protein signalling that governs mechanotransduction in breast cancer cells. The discovery of stiffness dependent YAP & β-catenin signalling, the interplay between YAP and β-catenin pathway mechanotransduction implicated by cell density, the regulation of YAP- β-catenin interplay in mechanotransduction by PIEZO1, the importance of F-actin & myosin-II in YAP & β-catenin translocation, and the YAP & β-catenin effects on cell behaviour, all help lay the groundwork for devising targeted interventions to impede cancer progression. / Thesis / Master of Applied Science (MASc) / Breast cancer is the most prominent type of cancer that exists in women and like other cancers, it can spread to other organs such as the bone, liver, and brain even though the microenvironments are different. With different proteins like yes-associated protein (YAP) regulating this microenvironmental change in the primary and secondary sites, it can flourish and become more aggressive which leads to death for the host. The interactions of these proteins and their pathways which affects the aggressiveness of the cancers are still not well understood. This project investigates the interaction between YAP and β-catenin in response to surface stiffness to understand the mechanical regulation of breast cancer metastasis. Alongside the protein signalling, cytoskeletal components, downstream gene expression, cell confluency, and membrane proteins are explored. Our results show that an increase in stiffness allow for higher nuclear translocation for YAP and β-catenin, enhancing downstream gene expression relating to migration and proliferation. Furthermore, in lower stiffness the crosstalk between YAP and β-catenin results in an inverse relationship. These findings suggest β-catenin compensates YAP function when YAP is inhibited. In terms of the cytoskeletal protein, an integral part of the cell, the intervention saw a significant alteration in the YAP & β-catenin signalling. Additionally, cell confluency played a large role in β-catenin nuclear translocation implicating the role of cell-to-cell contact in mechanotransduction. To see if mechanosensitive membrane proteins fit into the pathway, PIEZO1 studies were done and results show that it is an upstream effector of YAP, and consequently an indirect connection with β-catenin. All in all, this thesis provides insightful information in the role of stiffness matrix, cell confluency, membrane proteins and how that regulate YAP & β-catenin. This research provides the mechanism for the synergistic therapies targeting multiple proteins to prevent cancer growth and metastasis. Mechanotransduction Breast Cancer Cells Metastasis YAP β-catenin Nuclear translocation YAP & β-catenin interplay Myosin-II Actin filament Cell migration Matrix stiffness Cell confluency PIEZO1
250	SELECTIVE DEPOSITION OF DIAMOND FILMS AND THEIR APPLICATION IN POLYMER BASED ELECTRODE ARRAYS Sabens, David Michael January 2010 (has links) No description available. Chemical Engineering Diamond Electrochemistry Diamond-on-polymer photolithography thin film flexible electronics BEN Microwave Plasma CVD Hot Filament CVD fast scan cyclic voltammetry Avatrel selective deposition

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