Global ETD Search

11	Imagem por contraste de fase próximo à ressonância / Phase contrast imaging near resonance Santos, Cora Castelo Branco de Francisco Reynaud dos 18 July 2014 (has links) Tendo em vista experimentos envolvendo o estudo da dinâmica de gases quânticos aprisionados, visando a simulação quântica de sistemas complexos, este trabalho discute a implementação e o estudo da técnica de imagem dispersiva, por contraste de fase, e a compara com o método de imagem por absorção óptica. A implementação da nova técnica foi feita em um regime não convencional de dessintonia, explorando a região proxima da ressonância atômica, onde se deve levar em conta o efeito da absorção, além da mudança de fase, do campo elétrico do laser de prova, após interagir com os átomos. Portanto, este trabalho apresenta não só a implementação de uma nova técnica experimental, mas também um modelo simples para interpretar os dados obtidos nesse novo regime. / Envisioning experiments involving the dynamics of trapped quantum gases, towards the quantum simulation of complex systems, this work presents the implementation and study of a dispersive imaging technique, by phase contrast, and compares it to absorption imaging. The implementation of this new technique in our laboratory was done in a non conventional range of detunings, exploring the region near atomic resonance, where absortion effecs need to be taken into account, in addition to the phase shift, introduced in the electric field of the probing laser, after interacting with the atoms. Therefore, this work presents not only the implementation of a new experimental technique, but also a simple model to interpret the dada obtained in this new regime. Absorption imaging Bose Einstein condensates Condensados de Bose-Einstein Imagem de absorção Imagem de contraste de fase Imaging techniques Phase contrast imaging Técnicas de imagem
12	Imagerie de phase quantitative par interférométrie à décalage quadri-latéral. Application au domaine des rayons x durs / Quantitative X-ray phase imaging with a lateral shearing interferometer. Application to the hard X-rays Rizzi, Julien 08 November 2013 (has links) Depuis la découverte des rayons X par Röntgen, l'imagerie radiographique utilise le contraste d'absorption. Cette technique est efficace uniquement si les objets à étudier sont suffisamment absorbants. C'est pour cela qu'on peut détecter une lésion osseuse avec une radiographie, mais pas une lésion ligamentaire.Toutefois, l'imagerie par contraste de phase peut permettre de surmonter cette limite. Depuis les années 2000, s'appuyant sur des travaux similaires existant en optique visible, les scientifiques des rayons X essayent de mettre au point des dispositifs sensibles au contraste de phase et compatibles avec des applications industrielles comme l'imagerie médicale ou le contrôle non-destructif. Néanmoins, les architectures classiques des interféromètres sont très difficiles à mettre en place dans les rayons X durs, et sont trop contraignantes pour être transférables vers l'industrie. C'est pourquoi des dispositifs utilisant des réseaux de diffraction ont été les plus développés. Ils ont permis d'obtenir les premières images de radiographie par contraste de phase sur des humains vivants.Mais les architectures proposées aujourd'hui utilisent plusieurs réseaux et son contraignantes pour les industriels. C'est pourquoi j'ai développé au cours de ma thèse un système n'utilisant qu'un unique réseau de phase. J'ai montré qu'un tel dispositif peut générer des interférogrammes achromatiques et invariants par propagation. Ce dispositif a permis d'effectuer des mesures de contraste de phase quantitatives sur un fossile biologique, ainsi que des mesures métrologiques sur des miroirs plans sensibles aux rayons X. / Since Röntgen discovered X-rays, X-ray imaging systems are based on absorption contrast. This technique is inefficient for weakly absorbing objects. As a result, X-ray standard radiography can detect bones lesions, but cannot detect ligament lesions.However, phase contrast imaging can overcome this limitation. Since the years 2000, relying on former works of opticians, X-ray scientists are developing phase sensitive devices compatible with industrial applications such as medical imaging or non destructive control.Standard architectures for interferometry are challenging to implement in the X-ray domain.This is the reason why grating based interferometers became the most promising devices to envision industrial applications. They provided the first x-ray phase contrast images of living human samples.Nevertheless, actual grating based architectures require the use of at least two gratings, and are challenging to adapt on an industrial product. So, the aim of my thesis was to develop a single phase grating interferometer. I demonstrated that such a device can provide achromatic and propagation invariant interference patterns. I used this interferometer to perform quantitative phase contrast imaging of a biological fossil sample and x-ray flat mirror metrology. Contraste de phase Rayons X Interférométrie à réseaux Rayonnement synchrotron Phase contrast imaging X-rays Grating interferometry Synchrotron radiation
13	Imagem por contraste de fase próximo à ressonância / Phase contrast imaging near resonance Cora Castelo Branco de Francisco Reynaud dos Santos 18 July 2014 (has links) Tendo em vista experimentos envolvendo o estudo da dinâmica de gases quânticos aprisionados, visando a simulação quântica de sistemas complexos, este trabalho discute a implementação e o estudo da técnica de imagem dispersiva, por contraste de fase, e a compara com o método de imagem por absorção óptica. A implementação da nova técnica foi feita em um regime não convencional de dessintonia, explorando a região proxima da ressonância atômica, onde se deve levar em conta o efeito da absorção, além da mudança de fase, do campo elétrico do laser de prova, após interagir com os átomos. Portanto, este trabalho apresenta não só a implementação de uma nova técnica experimental, mas também um modelo simples para interpretar os dados obtidos nesse novo regime. / Envisioning experiments involving the dynamics of trapped quantum gases, towards the quantum simulation of complex systems, this work presents the implementation and study of a dispersive imaging technique, by phase contrast, and compares it to absorption imaging. The implementation of this new technique in our laboratory was done in a non conventional range of detunings, exploring the region near atomic resonance, where absortion effecs need to be taken into account, in addition to the phase shift, introduced in the electric field of the probing laser, after interacting with the atoms. Therefore, this work presents not only the implementation of a new experimental technique, but also a simple model to interpret the dada obtained in this new regime. Condensados de Bose-Einstein Imagem de absorção Imagem de contraste de fase Técnicas de imagem Absorption imaging Bose Einstein condensates Imaging techniques Phase contrast imaging
14	Polarization-enabled Multidimensional Optical Microscopy Changqin Ding (6331859) 15 May 2019 (has links) Polarization-dependence provides a unique handle for extending the dimensionality of optical microscopy, with particular benefits in nonlinear optical imaging. Polarization-dependent second order nonlinear optical processes such as second harmonic generation (SHG) provide rich qualitative and quantitative information on local molecular orientation distribution. By bridging Mueller and Jones tensor, a theoretical framework was introduced to experimentally extend the application of polarization-dependent SHG microscopy measurements toward in vivo imaging, in which partial polarization or depolarization of the beam can complicate polarization analysis. In addition, polarization wavefront shaping was demonstrated to enable a new quantitative phase contrast imaging strategy for thin transparent samples. The axially-offset differential interference contrast microscopy (ADIC) was achieved as a combination of classic Zernike phase contrast and Nomarski differential interference contrast (DIC) methods. The fundamentally unique manner of this strategy also inspired rapid volumetric analysis in time dimension that is accessible for most existing microscopy systems. Finally, the dimensionality of high speed twophoton fluorescence imaging was extended to the spectral domain by spatial/spectral multiplexing, enabling beam scanning two photon fluorescence microscopy with 17 frames per second rate and over 2000 effective spectral data points.<br> second harmonic generation Quantitative phase contrast imaging polarization multidimensional microscopy two-photon fluorescence wavefront shaping
15	Three Dimensional Imaging of Palatal Muscles in the Human Embryo and Fetus: Development of Levator Veli Palatini and Clinical Importance of the Lesser Palatine Nerve / ヒト胚子胎児における口蓋筋の３次元画像解析：口蓋帆挙筋の発生と小口蓋神経の臨床的な重要性 Kishimoto, Hideaki 24 July 2017 (has links) 京都大学 / 0048 / 新制・論文博士 / 博士(医学) / 乙第13119号 / 論医博第2132号 / 新制\|\|医\|\|1023(附属図書館) / (主査)教授大森孝一, 教授斎藤通紀, 教授長船健二 / 学位規則第4条第2項該当 / Doctor of Medical Science / Kyoto University / DFAM levator veli palatini muscle human embryo human fetus phase-contrast imaging Kyoto collection lesser palatine nerve 490
16	APPLICATION OF X-RAY DIGITAL IMAGE CORRELATION (XDIC) ON MATERIALS WITH ENGINEERED SPECKLES Junyu Wang (9713912) 12 December 2020 (has links) As an intrinsic requirement for digital image correlation (DIC)to be applicable, the images must exhibit a speckle pattern of sufficient unique features. Researchers have incorporated X-ray phase contrast imaging (PCI) and DIC (XDIC) and conducted studies on materials with natural internal features as speckles. This study is the first attempt to explore the applicability and standards of XDIC to be applied on materials that are transparent under X-ray PCI, mainly polymers, by deliberately embedding particles into the sample. The goal is to generate a high-quality speckle while maintaining the least influence on the material’s properties. Iron oxide (FeO), tungsten carbide (WC), and platinum (Pt) are embedded into Sylgard® epoxy at various weight ratios, and the Sylgard® samples are loaded with a Kolsky compression bar paired with high-speed X-ray PCI. The speckle quality of the PCI images is assessed using a mean intensity gradient based approach, as well as intensity distribution analysis. DIC is applied to the images to measure the displacement field in the loading direction, and the results are analyzed. The engineering stress-strain relationship is generated from the Kolsky bar apparatus, and the results are compared to find the influence of the added particles.<div><br></div><div>The results indicate thatthe addition of particles does not significantly alter the base polymer’s properties, and the theoretical deviation error can be as low as less than 0.01 pixels. Disregarding the limited applicability to embed into polymer samples, platinum produces the best speckle. WC particle is the superior choice of material to embed for its good speckle quality, ease of embedding, and good availability. Lower weight ratios are shown to be preferential. This study also emphasizes the importance of sample design when applying XDIC to materials with embedded particles. It is preferential for best accuracy to design the region of interest to be away from the surfaces of the samples and be located near the back of the sample with respect to the impact surface.<br></div> Aerospace Engineering Polymers and Plastics Digital Image Correlation x-ray phase contrast imaging Soft materials Kolsky bar Dynamic Compression. High-speed imaging
17	DYNAMIC FAILURE OF POLYMER BONDED EXPLOSIVE SYSTEMS: FROM IDEALIZED SINGLE CRYSTAL TO VARIATIONS OF THE TRADITIONAL PARTICULATE REINFORCED COMPOSITE Kerry Ann M Stirrup (16405512) 24 July 2023 (has links) <p> </p> <p>Polymer bonded explosives (PBX) are a particle reinforced composite containing a high solids loading of explosive particulates bound in a polymer matrix. Commercially produced energetic particulates contain some percentage of flaws in the form of contaminants, porosity, and preexisting fractures. Additional large-scale porosity within the composite is generated during PBX formulation. The introduction of novel additive manufacturing techniques to the energetics field alters the known composite structure and introduces a porosity variable that has not been fully characterized. Porosity collapse during deformation is believed to be a predominant mechanism for hotspot formation, which dominates shock initiation behaviors. These phenomena are difficult to experimentally characterize due to inherent small spectral and temporal scales, and as such numerical and computational models are relied upon to inform fundamental physics. Experimental characterization of the behaviors of energetic materials during deformation is necessary to better inform computational studies and improve our understanding of hotspot formation mechanisms. </p> <p>This dissertation experimentally evaluates the high-rate deformation of porosity in individual explosive particulates and within the overall composite structure. This has included the development of a novel micromachining technique for pore generation in energetic single crystals using the focused ion beam (FIB), resulting in precise and controllable porosity generation that is easily reproducible in collaboration with computational studies. FIB was shown to be an effective pore generation technique, verified by assessing surface roughness and pore quality compared to contemporary manufacturing methods. Three experimental subsets are evaluated: surface cracks in HMX single crystals, polygonal pores in HMX single crystals, and large-scale porosity variations in mock vibration assisted print (VAP) produced composites of borosilicate glass beads and Sylgard 184® binder. A single stage light gas gun was used to impact the samples at 400 m/s and the impact event and resultant material response were observed in real time using x-ray phase contrast imaging (PCI). Machined surface cracks were shown to have negligible effect on the final fracture behaviors of HMX crystals. In polygonal pores fractures were shown to originate due to stress concentration during impact followed by otherwise expected brittle fracture behaviors. For wedge-like pores, the shockwave culminates on the front face of the pore and contributed to early fracture in some samples as well as a consistent open fracture opposite the impact along the shockwave direction in later stages of impact. For the blunt rectangular-like pores two differing behaviors were observed, wherein either the pore condensed and fracture at the pore was not seen during the impact event or large open fractures formed at the pore corners opposite the shockwave. The variance in response is attributed to the energy of fracture dissipating somewhere else in the material bulk, like the behaviors observed in the milled slot samples. Finally, additively manufactured PBX deformation behaviors were observed to be dominated by the collapse of the existing ordered porosity in the bulk which occurred at an increased rate relative to the bulk material compression. This resulted in a three-stage progression of deformation, consisting of a rapid collapse of large-scale ordered porosity, followed by the densification of the remaining features, and ultimately ending in compaction of the bulk as the impact projectile fully compressed the samples. Future work includes exploration of further FIB produced pore effects on dynamic fractures, evaluation of printed material deformation behaviors at additional rates, as well as application and evaluation of additional VAP printed material formulations. </p> Composite and hybrid materials Polymer bonded explosives HMX PBX Gas gun experimental technique Phase contrast imaging (PCI) Focused ion beam machining micro computed tomography,
18	Electrochemical Storage of Lithium in Silicon - Morphological Analysis from the Atomistic Scale to the Macroscale Ronneburg, Arne 26 May 2021 (has links) Die experimentellen Daten können bei Dr. Sebastian Risse, Helmholtz-Zentrum Berlin, eingesehen werden. / Silizium-Elektroden werden aufgrund ihrer um eine Gröÿenordnung höheren Kapazität als mögliches Elektrodenmaterial in Lithium-Ionen-Batterien betrachtet. Diese Kapazität geht jedoch mit einer Volumenausdehnung von bis zu 310 % einher. Dies begünstigt einen schnellen Kapazitätsabfall und ein kontinuierliches Wachstum der SEI-Schicht. Ziel dieser Arbeit ist es daher, die Morphologie-Änderung der Siliziumelektrode während des Lithiierungs-Prozesses besser zu verstehen unter Nutzung von operando-Methoden Im ersten Teil wurde Neutronenreflektometrie (NR) genutzt, um die Morphologie-Änderung auf der Nanometerskala einer Siliziumelektrode zu untersuchen. Das Wachsen/Schrumpfen der lithiierten Zone im Silizium wurde beobachtet. Auf der Oberfläche der Elektrode wächst im delithiierten Zustand eine Grenzschicht, welche die Lithiierung verhindert. Nachdem diese Schicht aufgelöst ist, kann Lithium eingelagert werden. Im zweiten Teil wurde operando Röntgen- Phasenkontrast-Radiographie genutzt. Ein rechteckiges Riss-Gitter wurde dabei im delithiierten Zustand beobachtet, welches sich während der Lithiierung schließt. Dieses Gitter ist entlang der Kristallachsen des Siliziums orientiert. Im nächsten Zyklus entsteht das Gitter am selben Ort wieder, und breitet sich mit steigender Zyklenzahl über die Elektrode aus. Im dritten Teil wurde der Einfluss einer künstlichen Grenzschicht auf die Lithiierung untersucht. Erneut wurde NR genutzt. Die künstliche Schicht verringert das Wachstum der SEI-Schicht, unterdrückt es jedoch nicht komplett. Nach 2 Zyklen ist die Grenzschicht degradiert, und Seitenreaktionen können beobachtet werden. / Silicon electrodes receive great interest as potential electrode material in lithium-based batteries due to their one order of magnitude higher capacity. This is accompanied by a volume expansion of up to 310 %, leading to an accelerated capacity loss of the electrodes. The volume expansion creates mechanical stress, leading to fracturization of the electrode and the continuous growth of the solid-electrolyte-interphase (SEI) layer under the consumption of active material. The aim of this thesis is to investigate the morphological changes of silicon electrodes during lithiation/ delithiation. Especially operando-techniques are well-suited to investigate these morphological changes since they allow us to precisely link structural data and the electrochemical state. The first project uses operando neutron reflectometry (NR) and in-situ electrochemical impedance spectroscopy (EIS) to analyze the morphology change of the silicon surface on the nanometer-scale. The growth and shrinkage of the lithiated layers within the electrode as well as the lithium concentration was determined with this method. An SEI-layer forms on top of the silicon electrode in the delithiated state, which hinders the lithium uptake in the initial part of the subsequent lithiation. The second project analyzes the morphology-change of the electrode on the µm-scale. Here the fracturization of the silicon electrode is investigated by operando X-ray phase-contrast radiography. A rectangular fracturization pattern was observed during the second half of the delithiation, which vanished again during the lithiation. The third project investigates the influence of an artificial coating layer on the lithiation process. Again operando NR was chosen as analysis tool. The artificial coating decreased the formation of the SEI-layer within the first cycles, but did not suppress it completely. However, this layer degraded already in an early stage of cycling, resulting in the occurrence of side reactions afterward. Siliziumelektroden Lithium-Ionen-Batterie operando-Analyse Reflektometrie Impedanzspektroskopie Phasenkontrast-Radiographie silicon electrodes lithium-ion batteries operando-measurements reflectometry impedance spectroscopy phase contrast imaging 530 Physik ddc:530
19	Aqueductal cerebrospinal fluid pulsatility in healthy individuals is affected by impaired cerebral venous outflow Beggs, Clive B., Magnano, C.R., Shepherd, Simon J., Marr, K., Valnarov, V., Hojnacki, D., Bergsland, N., Belov, P., Grisafi, S., Dwyer, Michael G., Carl, Ellen, Weinstock-Guttman, B., Zivadinov, R. 08 November 2013 (has links) yes / To investigate cerebrospinal fluid (CSF) dynamics in the aqueduct of Sylvius (AoS) in chronic cerebrospinal venous insufficiency (CCSVI)-positive and -negative healthy individuals using cine phase contrast imaging. Materials and Methods Fifty-one healthy individuals (32 CCSVI-negative and 19 age-matched CCSVI-positive subjects) were examined using Doppler sonography (DS). Diagnosis of CCSVI was established if subjects fulfilled ≥2 venous hemodynamic criteria on DS. CSF flow and velocity measures were quantified using a semiautomated method and compared with clinical and routine 3T MRI outcomes. Results CCSVI was associated with increased CSF pulsatility in the AoS. Net positive CSF flow was 32% greater in the CCSVI-positive group compared with the CCSVI-negative group (P = 0.008). This was accompanied by a 28% increase in the mean aqueductal characteristic signal (ie, the AoS cross-sectional area over the cardiac cycle) in the CCSVI-positive group compared with the CCSVI-negative group (P = 0.021). Conclusion CSF dynamics are altered in CCSVI-positive healthy individuals, as demonstrated by increased pulsatility. This is accompanied by enlargement of the AoS, suggesting that structural changes may be occurring in the brain parenchyma of CCSVI-positive healthy individuals
20	Interférométrie X à réseaux pour l'imagerie et l'analyse de front d'ondes au synchrotron / Synchrotron X-ray grating interferometry for imaging and wavefront sensing Zanette, Irène 16 December 2011 (has links) Le sujet de cette thèse est l'interférométrie X à réseaux: une technique d’imagerie développée pour la première fois il y a quelques années et qui donne des images de phase et de diffusion (small angle X-ray scattering) de haute sensibilité. Cette technique a un potentiel considérable pour la visualisation du structures qui absorbent faiblement les rayons X, et pour la détection de détails plus petits que la résolution du détecteur, par exemple les fissures et les fibres. Des structures de ce type ne peuvent pas être visualisées avec l’imagerie conventionnelle à rayons X en absorption. Dans le cadre des travaux sur cette thèse, un interféromètre à réseau à rayons X pour radiographie et tomographie multimodale a été installé à la ligne de lumière ID19 de l‘European Synchrotron Radiation Facility à Grenoble, France. L’excellente performance de cet instrument a été démontrée sur une grande variété d'échantillons de tissus biologiques mous, sur des échantillons paléontologiques, et sur des tissus osseux. Une autre partie des ce travail porte sur des améliorations de la technique d’imagerie elle-même. La première des ces améliorations consiste en un développement de méthodes avancées pour la tomographie avec réseaux. Ces méthodes peuvent réduire considérablement la dose livrée à l’échantillon durant les mesures nécessaires pour la reconstruction tomographique tout en préservant la qualité d’image. Un autre résultat majeur dans le cadre de ce travail est la conception, la mise en oeuvre et la démonstration d’un interféromètre à réseau à deux dimensions (2D). Cet appareil utilise des réseaux bidimentionnels au lieu de réseaux linéaires. L’interféromètre 2D produit des cartes d'angles de réfraction et des images de type champ sombre dans plusieurs directions du plan d’image et améliore considérablement la qualité des radiographies à réseau. Le champ d’application de l’interféromètre 2D n’est pas limité à l'imagerie par rayons X, puisque le nouveau dispositif peut aussi être particulièrement utile pour la caractérisation de composantes optiques de haute précision, tel que démontré par des expériences de métrologie à la longueur d'onde d'utilisationsur des lentilles réfractives pour rayons X. / The subject of this thesis is X-ray grating interferometry: an imaging technique first demonstrated a few years ago, which yields high-sensitivity phase and dark-field (small angle X-ray scattering) images of the investigated specimen. It bears tremendous potential for the visualization of low-absorbing features, and for the detection of details smaller than the resolution of the imaging system, such as cracks and fibers. Structures of this type cannot be visualized with conventional absorption X-ray imaging. As a part of this thesis work, an X-ray grating interferometer for multimodal radiography and tomography was installed at the beamline ID19 of the European Synchrotron Radiation Facility in Grenoble, France. The excellent performance of this instrument has been demonstrated on a large variety of soft-tissue biological samples, on paleontological specimens, and on osseous tissues. Another part of the present work concerns improvements of the imaging technique itself. The first of these improvements consists in the development of advanced schemes for grating-based tomography. These schemes can substantially reduce the dose delivered to the sample during a grating-based tomography scan, while preserving the image quality. Another major achievement of this thesis is the design, implementation and demonstration of a two-dimensional (2D) grating interferometer. This device uses gratings structured in two dimensions rather than line gratings. The 2D interferometer gives refraction angle and dark-field signals in multiple directions of the image plane and significantly improves the quality of the grating-based radiographies. The application range of the 2D interferometer is not restricted to X-ray imaging; the new device may also be particularly useful for high-precision optics characterization, as is shown by in-situ at-wavelength investigations of X-ray refractive lenses. Imagerie X Contraste de phase Interférométrie X à réseaux Rayonnement synchrotron Microtomographie Optique rayons X X-ray imaging Phase contrast imaging X-ray grating interferometry Synchrotron radiation Microtomography X-ray optics

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