Global ETD Search

141	Simulation of Microwave Heating of Healthy and Cancerous Human Tissue With Gold Nanoparticles Carlens, Hampus, Söderström, Mika January 2022 (has links) With a great need for new and better cancer treatments, microwaves and gold nanoparticles (GNPs) are increasingly being suggested to be used in radiotherapy. In thisreport, the authors present an investigation of how human tissue,both malignant and healthy, behaves under microwave radiation.Specifically, the focus has been on gradual transitions between healthy and GNP-treated cancerous tissue inside a waveguide.Here, the electromagnetic material property of concern is therelative permittivity. The permittivities of human tissues andGNPs have been modelled using well known analytical models.Furthermore, numerical simulations have been performed usingCOMSOL Multiphysics and the results have been compared to analytical equations suggested to describe the energy absorption in the material. The study shows that the analytical equations are in agreement with the numerical simulations for lower propagating electromagnetic (EM) modes. Some possible electromagnetic resonance has been seen within the GNP treated cancer tissue. Furthermore, the extensive analytical models and numerical software tools created will be of importance for future research of the feasibility of this cancer treatment method. / Med ett stort behov av nya, bättre cancer-behandlingar föreslås mikrovågsstrålning och guldnanopartiklar (GNPs) att användas i strålterapi. I denna rapport presenterar författarna en undersökning av hur mänsklig vävnad beter sig under mikrovågsstrålning. Specifikt har fokus varit på gradvisa övergångar mellan frisk och GNP fylld cancervävnad i en vågledare. Här är den elektromagnetiska egenskapen av intresse den relativa permittiviteten. Permittiviteterna av mänsklig vävnad och GNPs har modellerats med välkända analytiska modeller. Vidare har numeriska simuleringar utförts i COMSOL Multiphysics och resultaten av dessa har jämförts med de analytiska ekvationerna som sägs beskriva absorbtion av energi inuti materialet. Undersökningen visar att de analytiska ekvationerna stämmer överens med de numeriska simuleringarna för lägre propagerande elektromagnetiska (EM) moder. Möjlig elektromagnetisk resonans har setts inom den GNP fyllda cancervävnaden. De omfattande analytiska modellerna och numeriska mjukvaruverktygen som tagits fram kommer vara viktiga för framtida forskning på denna cancerbehandling. / Kandidatexjobb i elektroteknik 2022, KTH, Stockholm Gold nanoparticle (GNP) Electrophoretic resonance Dispersive permittivity Cancer treatment Waveguide Radiotherapy Graded material. Elektroteknik och elektronik
142	Fabrication of a-Si and a-InGaN Photovoltaics by Plasma Sputtering Way, Austin J. 30 April 2014 (has links) No description available. Physics Materials Science Energy Electrical Engineering Engineering Photovoltaics efficiency amorphous crystalline scanning electron microscope transmission electron microscope energy dispersive X-rays semiconductors PN junctions
143	NON-ISOTHERMAL NUMERICAL INVESTIGATIONS OF THE EFFECT OF SPEED RATIO AND FILL FACTOR IN AN INTERNAL MIXER FOR TIRE MANUFACTURING PROCESS Ahmed, Istiaque 13 September 2018 (has links) No description available. Mechanical Engineering Polymers
144	Communications over noncoherent doubly selective channels Pachai Kannu, Arun 27 March 2007 (has links) No description available. Noncoherent channels doubly selective channels doubly dispersive channels noncoherent communication spectral efficiency channel capacity achievable rates pilot symbols training symbols channel estimation minimum mean squared error
145	X-ray Diffraction Studies of Amorphous Materials Palma, Joseph John January 2013 (has links) This thesis presents a study on two types of X-ray diffraction methodologies applied to the characterization of amorphous materials. The purpose of this study was to assess the feasibility of measuring the diffractive spectrum of amorphous materials by Energy-Dispersive X-ray Diffraction (EDXRD) utilizing Cadmium Zinc Telluride detectors. The total scattering intensity (coherent plus incoherent scatter) spectra precisely measured by high-energy Wide-Angle X-ray Scattering (WAXS) were compared to the EDXRD spectra to determine the level of agreement between the two techniques. The EDXRD spectra were constructed by applying a spectra fusing technique which combined the EDXRD spectra collected at different scattering angles rendering a continuous total scattering spectrum. The spectra fusing technique extended the momentum transfer range of the observed scattered spectrum beyond the limitations of the X-ray source and CZT detection efficiencies. Agreement between the WAXS and fused EDXRD spectra was achieved. In addition, this thesis presents the atomic pair correlation functions and coordination numbers of the first coordination shell for four hydrogen peroxide solutions of varying mass concentrations using Empirical Potential Structural Refinement (EPSR). The results are compared to the state-of-the art ad initio quantum mechanical charge field molecular dynamics (QMCF MD) model of the hydrogen peroxide in solution to support the model's predictions on why hydrogen peroxide is stable in water. The EPSR results using the coherent scattering intensity calculated from the WAXS data set predicts a hydration shell of 6.4 molecules of water surrounding hydrogen peroxide. The results also indicate that hydrogen peroxide is more likely to behave as a proton donor than acceptor. These findings are in agreement with QMCF MD model of aqueous hydrogen peroxide. / Physics Physics Physics, Condensed Matter Empirical Potential Structure Refinement Energy-dispersive X-ray Diffraction Material Characterization Wide-angle X-ray Diffraction X-ray Physics
146	Fluctuations quantiques et effets non-linéaires dans les condensats de Bose-Einstein : des ondes de choc dispersives au rayonnement de Hawking acoustique / Quantum fluctuations and nonlinear effects in Bose-Einstein condensates : From dispersive shock waves to acoustic Hawking radiation Larré, Pierre-Élie 20 September 2013 (has links) Cette thèse est dédiée à l'étude de l'analogue du rayonnement de Hawking dans les condensats de Bose-Einstein. Le premier chapitre présente de nouvelles configurations d'intérêt expérimental permettant de réaliser l'équivalent acoustique d'un trou noir gravitationnel dans l'écoulement d'un condensat atomique unidimensionnel. Nous donnons dans chaque cas une description analytique du profil de l'écoulement, des fluctuations quantiques associées et du spectre du rayonnement de Hawking. L'analyse des corrélations à deux corps de la densité dans l'espace des positions et des impulsions met en évidence l'émergence de signaux révélant l'effet Hawking dans nos systèmes. En démontrant une règle de somme vérifiée par la matrice densité à deux corps connexe, on montre que les corrélations à longue portée de la densité doivent être associées aux modifications diagonales de la matrice densité à deux corps lorsque l'écoulement du condensat présente un horizon acoustique. Motivés par des études expérimentales récentes de profils d'onde générés dans des condensats de polaritons en microcavité semi-conductrice, nous analysons dans un second chapitre les caractéristiques superfluides et dissipatives de l'écoulement autour d'un obstacle localisé d'un condensat de polaritons unidimensionnel obtenu par pompage incohérent. Nous examinons la réponse du condensat dans la limite des faibles perturbations et au moyen de la théorie de Whitham dans le régime non-linéaire. On identifie un régime dépendant du temps séparant deux types d'écoulement stationnaire et dissipatif : un principalement visqueux à faible vitesse et un autre caractérisé par un rayonnement de Cherenkov d'ondes de densité à grande vitesse. Nous présentons enfin des effets de polarisation obtenus en incluant le spin des polaritons dans la description du condensat et montrons dans le troisième chapitre que des effets similaires en présence d'un horizon acoustique pourraient être utilisés pour démontrer expérimentalement le rayonnement de Hawking dans les condensats de polaritons. / This thesis is devoted to the study of the analogue of Hawking radiation in Bose-Einstein condensates. The first chapter presents new configurations of experimental interest making it possible to realize the acoustic equivalent of a gravitational black hole in the flow of a one-dimensional atomic condensate. In each case we give an analytical description of the flow pattern, the associated quantum fluctuations, and the spectrum of Hawking radiation. Analysis of the two-body density correlations in position and momentum space emphasizes the occurrence of signals revealing the Hawking effect in our systems. By demonstrating a sum rule verified by the connected two-body density matrix we show that the long-range density correlations have to be associated to the diagonal modifications of the two-body density matrix when the flow of the condensate presents an acoustic horizon. Motivated by recent experimental studies of wave patterns generated in semiconductor microcavity polariton condensates we analyze in a second chapter superfluid and dissipative characteristics of the flow of a nonresonantly pumped one-dimensional polariton condensate past a localized obstacle. We examine the response of the condensate in the weak-perturbation limit and by means of Whitham theory in the nonlinear regime. We identify a time-dependent regime separating two types of stationary and dissipative flow: a mostly viscous one at low velocity and another one characterized by Cherenkov radiation of density waves at large velocity. Finally we present polarization effects obtained by including the spin of polaritons in the description of the condensate and show in the third chapter that similar effects in the presence of an acoustic horizon could be used to experimentally demonstrate Hawking radiation in polariton condensates. Condensats de Bose-Einstein atomiques Solitons Fluctuations quantiques Corrélations Condensats hors équilibre Condensats polarisés Superfluidité Ondes de choc dispersives Théorie de Whitham Trous noirs acoustiques Rayonnement de Hawking acoustique Atomic Bose-Einstein condensates Solitons Quantum fluctuations Correlations Semiconductor microcavity polaritons Out-of-equilibrium condensates Polarized condensates Superfluidity Dispersive shock waves Dispersive shock waves Acoustic black holes Acoustic Hawking radiation
147	Développement et applications de la tomographie chimique par spectroscopie EDX / Development and applications of chemical tomography by EDX spectroscopy Lepinay, Kevin 27 November 2013 (has links) Cette thèse porte sur l’évaluation des techniques pour la tomographie chimique par STEM EDX : mise au point des procédures expérimentales, traitement des données, reconstruction des volumes, analyse de la qualité des résultats obtenus et évaluation de la complexité globale. Les performances très limitées de l’analyse STEM EDX font que peu d’études, jusqu’à aujourd’hui, se sont portées sur cette technique. Cependant, les avancées très notables procurées par les nouveaux détecteurs ‘SDD’ ainsi que les sources électroniques X-FEG haute brillance, rendant l’analyse STEM EDX 2D très rapide, ont relancé la possibilité de la tomographie chimique ; la technique demande toutefois à être mise au point et évaluée (performances et complexité). Nous avons travaillé sur un microscope Tecnai Osiris permettant d’acquérir des cartographies chimiques EDX de centaines de milliers de pixels avec une résolution de l’ordre du nanomètre en quelques minutes. Nous avons choisi de préparer par FIB des échantillons en forme de pointe et d’utiliser un porte-objet permettant une exploration angulaire de 180° sans ombrage. Puis, à l’aide d’échantillons modèles (billes de SiO2 dans une résine), nous avons évalué les déformations d’échantillon par l’irradiation du faisceau électronique. Ceci nous a permis de proposer une méthode pour limiter cet effet par déposition d’une couche de 20 nm de chrome. Des simulations d’images ont permis d’évaluer les logiciels et méthodes de reconstruction. La méthodologie de chaque étape d’une analyse de tomographie STEM EDX a ensuite été expliquée, et l’intérêt de la technique démontré grâce à la comparaison de l’analyse 2D et 3D d’un transistor FDSOI 28 nm. La qualité des reconstructions (rapport signal-sur-bruit, résolution spatiale) a été évaluée en fonction des paramètres expérimentaux à l’aide de simulations et d’expériences. Une résolution de 4 nm est démontrée grâce à l’analyse d’une mire et d’un transistor « gate all around ». Pour ce même transistor, la possibilité et l’intérêt d’analyse de défaillance à l’échelle nanométrique est prouvée. Une analyse d’un défaut de grille d’une SRAM ou de trous dans un pilier en cuivre permettent d’expliquer l’intérêt d’une combinaison d’un volume HAADF (morphologie et résolution < 4 nm) et du volume EDX (information chimique). La conclusion est que cette technique, qui reste encore à améliorer du point de vue de sa simplicité, montre déjà son utilité pour l’analyse et la mise au point des technologies avancées (nœud 20 nm et après). / This thesis focuses on the evaluation of the STEM EDX chemical tomography technique: development of experimental procedures, data processing and volumes reconstruction, quality analysis of the results and evaluation of the overall complexity. Until now, STEM EDX analysis performances were very limited, so only few studies about this technique have been realized. However, very significant progress procured by the new SDD detectors as well as by the high brightness electronic sources (X-FEG), making the STEM EDX 2D analysis very fast, have revived the possibility of the chemical tomography, although the technique has to be developed and evaluated (performance and complexity). We have worked on a Tecnai Osiris which acquires EDX chemical mapping of hundreds of thousands of pixels with resolution of one nanometer and in a few minutes. We chose to prepare the rod-shaped samples by FIB and use a sample holder allowing an angle of exploration of 180° without shadowing effects. Then, using model samples (SiO2 balls in resin), we evaluated the sample deformation due to the electron beam irradiation. This allowed us to propose a method to reduce this effect by depositing a 20 nm chromium layer. Images simulations were used to evaluate the software and the reconstruction methods. The methodology of each step of the STEM EDX tomography analysis is then explained and the technique interest is demonstrated by comparing the 2D and the 3D analysis of a transistor 28 nm FDSOI. The quality of the reconstructions (signal-to-noise ratio, spatial resolution) was evaluated, in function of experimental parameters, using simulations and experiments. A resolution of 4 nm is demonstrated through the analysis of a test pattern and a "gate all around” transistor. For the same transistor, the possibility and the interest of a failure analysis at the nanoscale is proven. Analyses of a SRAM gate fail or of the holes in a copper pillar explain the benefits of a combination between a HAADF volume (morphology and resolution < 4 nm) and an EDX volume (chemical information). To conclude, this technique, which still needs to be improved in terms of simplicity, is already showing its usefulness for the analysis and the development of advanced technologies (20nm node and beyond). Matériau pour l'électronique Semiconducteur Tomographie chimique Cartographie chimique Imagerie 3D Reconstruction 3D Préparation de l'échantillon Faisceau d'ions focalisés Material for electronic device SemiConductors Chemical tomography Chemical mapping 3D Imaging 3D Reconstruction Sample preparation FIB - Focused ion beam 620.110 287 072
148	Quantitative analysis of core-shell nanoparticle catalysts by scanning transmission electron microscopy Haibo, E. January 2013 (has links) This thesis concerns the application of aberration corrected scanning transmission electron microscopy (STEM) to the quantitative analysis of industrial Pd-Pt core-shell catalyst nanoparticles. High angle annular dark field imaging (HAADF), an incoherent imaging mode, is used to determine particle size distribution and particle morphology of various particle designs with differing amounts of Pt coverage. The limitations to imaging, discrete tomography and spectral analysis imposed by the sample’s sensitivity to the beam are also explored. Since scattered intensity in HAADF is strongly dependent on both thickness and composition, determining the three dimensional structure of a particle and its bimetallic composition in each atomic column requires further analysis. A quantitative method was developed to interpret single images, obtained from commercially available microscopes, by analysis of the cross sections of HAADF scattering from individual atomic columns. This technique uses thorough detector calibrations and full dynamical simulations in order to allow comparison between experimentally measured cross section to simulated ones and is shown to be robust to many experimental parameters. Potential difficulties in its applications are discussed. The cross section approach is tested on model materials before applying it to the identification of column compositions of core-shell nanoparticles. Energy dispersive X-ray analysis is then used to provide compositional sensitivity. The potential sources of error are discussed and steps towards optimisation of experimental parameters presented. Finally, a combination of HAADF cross section analysis and EDX spectrum imaging is used to investigate the core-shell nanoparticles and the results are correlated to findings regarding structure and catalyst activity from other techniques. The results show that analysis by cross section combined with EDX spectrum mapping shows great promise in elucidating the atom-by-atom composition of individual columns in a core-shell nanoparticle. However, there is a clear need for further investigation to solve the thickness / composition dualism. 620.5
149	Processus cohérents et applications des phénomènes de lumière lente et rapide dans l'hélium métastable à température ambiante / Coherent processes and applications of the slow and fast light phenomena in metastable helium at room temperature Lauprêtre, Thomas 23 December 2012 (has links) L'interaction entre des champs électromagnétiques et des systèmes à plusieurs niveaux peut donner lieu à différents processus cohérents. La transparence électromagnétiquement induite (EIT) ou les oscillations cohérentes de populations (CPO) sont des phénomènes résonnants ayant pour conséquence d'annuler l'absorption du système pour un champ sonde. L'EIT se produit dans les systèmes à trois niveaux et met en jeu une cohérence entre niveaux non couplés optiquement, alors que les systèmes à deux niveaux suffisent pour faire apparaître le CPO qui ne met pas en jeu la dynamique des cohérences.Il est possible dans un milieu constitué d'atomes d'hélium métastable à température ambiante d'extraire un système à trois niveaux en Λ qui, lorsqu'il est excité par des polarisations circulaires, fait apparaître des fenêtres EIT de l'ordre de quelques dizaines de kHz de large. Lorsque ce système est excité par des polarisations linéaires et soumis à un champ magnétique de faible amplitude, c'est l'association des deux phénomènes de CPO et d'EIT qui détermine la réponse du système. Une fenêtre de transparence CPO de quelques dizaines de kHz de large a en particulier été observée.Ce type de phénomènes résonnants est associé à de grandes variations de l'indice de réfraction avec la fréquence du champ sonde, ayant pour conséquence de profondes modifications de la vitesse de groupe d'une impulsion se propageant dans le milieu. Notre système expérimental permet ainsi d'observer de la lumière lente, de la lumière rapide ainsi que des vitesses de groupe négatives. L'insertion de tels milieux dispersifs en cavité optique a été suggérée pour augmenter la précision de senseurs comme les gyroscopes lasers, mais leur bruit fondamental dépend de la durée de vie des photons dans la cavité. C’est pourquoi l’influence des milieux hautement dispersifs sur la durée de vie des photons dans une cavité est étudiée expérimentalement et théoriquement. / Many coherent processes can be observed when electromagnetic fields are applied to multi-level systems. Electromagnetically induced transparency (EIT) or coherent population oscillations (CPO) are resonant phenomena resulting in the cancellation of the absorption of the system for a probe field. EIT occurs in three-level systems and involves the coherence between two optically uncoupled levels, whereas two-level systems are sufficient to produce CPO which does not involve the dynamics of the coherences.A three-level Λ system can be isolated in a gas of metastable helium atoms at room temperature. When excited with circular polarizations, this system exhibits EIT resonances of a few tens of kHz. If this system is excited by linear polarizations and submitted to a weak magnetic field, the response of the system is given by the combination of these two phenomena, namely EIT and CPO. A narrow CPO transmission window of a few tens of kHz has then been observed.This kind of resonant phenomena is associated with very strong variations of the refractive index at the probe frequency, leading to major changes of the group velocity of a pulse propagating in the medium. Our experimental set-up allows us to observe slow light, fast light, and even negative group velocities. Insertion of such dispersive media inside an optical cavity has been suggested to increase the sensitivity of sensors such as laser gyroscopes, but their fundamental noise depends on the lifetime of photons inside the cavity. This is why the influence of highly dispersive media on the photon lifetime inside a cavity is studied experimentally and theoretically. Cohérence atomique EIT Milieux dispersifs Durée de vie des photons CPO Lumière lente Lumière rapide Causalité Cavité optique Atomic coherence EIT Dispersive medium Photon lifetime CPO Slow light Fast light Causality Optical cavity
150	Comparação dos aspectos morfológicos e químicos de esmalte e dentina de dentes decíduos e permanentes / Morphological and chemical aspects comparison between enamel and dentin of permanent and deciduous teeth Oliveira, Maria Angélica Hueb de Menezes 08 July 2009 (has links) O objetivo deste estudo in vitro foi avaliar e comparar a microestrutura e a composição mineral do esmalte e da dentina de dentes decíduos e permanentes. Terceiros molares hígidos e segundos molares decíduos foram selecionados e distribuídos aleatoriamente em grupos, de acordo com o método de análise dos substratos utilizado: Microscopia Eletrônica de Varredura (MEV), Espectroscopia de Energia Dispersiva de Raio X (EDX), Difração de Raio X (DRX) e Microscopia Óptica (MO). Foi realizada comparação qualitativa e quantitativa da estrutura dental. As medidas de densidade numérica e diâmetro dos prismas de esmalte/túbulos dentinários e, de espessura do esmalte, dentina e dentina peritubular foram realizadas por meio de fotomicrografias obtidas pela MEV. Os resultados obtidos por meio da SEM foram analisados estatisticamente pelo teste não-paramétrico de Kruskal-Wallis. A quantidade relativa de íons cálcio (Ca) e fósforo (P) foram determinadas por meio de EDX e as fases químicas presentes em ambos os substratos, por análise de DRX. O valor das medidas de espessura observado para o esmalte e dentina dos dentes decíduos foi de 1.14 mm e 3.02 mm, respectivamente. Para os dentes permanentes, obtiveram-se valores de 2.58 mm para o esmalte e 5.95 mm para a dentina. Com relação ao diâmetro da cabeça dos prismas de esmalte, os resultados foram estatisticamente semelhantes para os dentes decíduos e permanentes, demonstrando uma ligeira diminuição do diâmetro da superfície externa para a região próxima a junção amelodentinária (JAD). A densidade numérica dos prismas foi maior nos dentes decíduos, principalmente próximo à JAD, sendo estatisticamente diferente dos valores observados nos dentes permanentes, independente da região analisada. Na análise do diâmetro e densidade numérica dos túbulos dentinários verificou-se semelhança estatística entre os dentes decíduos e permanentes, havendo aumento gradativo do número de túbulos a partir da JAD em direção a região próxima a polpa. A espessura da dentina peritubular, na região próxima a JAD e central foi, respectivamente, 0.91 e 0.59 mm nos dentes decíduos 1.16 e 0.98 mm nos dentes permanentes. A porcentagem de Ca e P foi maior nos dentes permanentes. Observou-se ainda, que a quantidade de colágeno nos dentes decíduos foi aparentemente menor quando analisados por meio da MO. De acordo com os resultados obtidos neste estudo, pode-se concluir que, de maneira geral, os dentes decíduos apresentam menor porcentagem de Ca e P, menor espessura de esmalte e dentina, maior densidade numérica de prismas e dentina peritubular mais delgada quando comparada aos dentes permanentes. / This study evaluated in vitro the microstructure and mineral composition of dental enamel and dentin comparing the permanent teeth with the deciduous teeth. Sound third molars and second primary molars were selected and randomly assigned to the following groups, according to the analysis methods of the substrates performed: Scanning Electron Microscopy (SEM), X-Ray diffraction (XRD), Energy dispersive X-ray spectrometer (EDS) and Optical Microscopy (OP). A qualitative and quantitative comparison of the dental structure was done. The measurements of the number and diameter of prisms/tubules, thickness of enamel, dentin and peritubular dentin were done in SEM photomicrographs. The microscopic findings were analyzed statistically by a non-parametric test (Kruskal- Wallis). The relative amounts of calcium (Ca) and phosphorus (P) were determined by EDS investigation. Phase present in both types of teeth were observed by the XRD analysis. The mean thickness measurements observed in the deciduous teeth enamel and dentin was, respectively, 1.14 mm and 3.02 mm and in the permanent teeth, 2.58 mm and 5.95 mm. The mean rod head diameter in deciduous teeth was statistically similar to that of permanent teeth enamel, and a slightly decrease from the outer enamel surface to the region next to the enameldentine junction was assessed. The numerical density of enamel rods was higher in the deciduous teeth, mainly near EDJ, that showed statistically significant difference. The mean tubules number and diameter in deciduous teeth were statistically similar to that of permanent teeth, and this numerical density increased from the EDJ to the region near the pulp. The mean thickness measurements of peritubular dentin observed in the regions near EDJ and central were, respectively, 0.91 and 0.59 mm for the primary teeth / 1.16 and 0.98 mm for the permanent teeth. The percentage of Ca and P was higher in the permanent teeth. The collagen level was apparently lower in deciduous teeth when analyzed by OP. The primary teeth structure showed a lower level of Ca and P and a thinner enamel and dentin thickness. The deciduous enamel presented higher numerical density of rods. The peritubular dentin was thicker in the permanent teeth. deciduous teeth dentes decíduos dentes permanentes difração de raio-x Energy dispersive X-ray spectrometer espectroscopia dispersiva de raio-x microscopia eletrônica de varredura microscopia óptica optical microscopy permanent teeth scanning electron microscopy XRay diffraction

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