Global ETD Search

521	Developing & tailoring multi-functional carbon foams for multi-field response Sarzynski, Melanie Diane 15 May 2009 (has links) As technological advances occur, many conventional materials are incapable of providing the unique multi-functional characteristics demanded thus driving an accelerated focus to create new material systems such as carbon and graphite foams. The improvement of their mechanical stiffness and strength, and tailoring of thermal and electrical conductivities are two areas of multi-functionality with active interest and investment by researchers. The present research focuses on developing models to facilitate and assess multi-functional carbon foams in an effort to expand knowledge. The foundation of the models relies on a unique approach to finite element meshing which captures the morphology of carbon foams. The developed models also include ligament anisotropy and coatings to provide comprehensive information to guide processing researchers in their pursuit of tailorable performance. Several illustrations are undertaken at multiple scales to explore the response of multi-functional carbon foams under coupled field environments providing valuable insight for design engineers in emerging technologies. The illustrations highlight the importance of individual moduli in the anisotropic stiffness matrix as well as the impact of common processing defects when tailoring the bulk stiffness. Furthermore, complete coating coverage and quality interface conditions are critical when utilizing copper to improve thermal and electrical conductivity of carbon foams. finite element carbon foam coupled field x-ray tomography microstructure
522	Spent Nuclear Fuel Self-Induced XRF to Predict Pu to U Content Stafford, Alissa Sarah 2010 August 1900 (has links) The quantification of plutonium (Pu) in spent nuclear fuel is an increasingly important safeguards issue. There exists an estimated worldwide 980 metric tons of Pu in the nuclear fuel cycle and the majority is in spent nuclear fuel waiting for long term storage or fuel reprocessing. This study investigates utilizing the measurement of x-ray fluorescence (XRF) from the spent fuel for the quantification of its uranium (U) to Pu ratio. Pu quantification measurements at the front end of the reprocessing plant, the fuel cycle area of interest, would improve input accountability and shipper/receiver differences. XRF measurements were made on individual PWR fuel rods with varying fuel ages and final burn-ups at Oak Ridge National Laboratory (ORNL) in July 2008 and January 2009. These measurements successfully showed that it is possible to measure the Pu x-ray peak at 103.7 keV in PWR spent fuel (~1 percent Pu) using a planar HPGe detector. Prior to these measurement campaigns, the Pu peak has only been measured for fast breeder reactor fuel (~40 percent Pu). To understand the physics of the measurements, several modern physics simulations were conducted to determine the fuel isotopics, the sources of XRF in the spent fuel, and the sources of Compton continuum. Fuel transformation and decay simulations demonstrated the Pu/U measured peak ratio is directly proportional to the Pu/U content and increases linearly as burn-up increases. Spent fuel source simulations showed for 4 to 13 year old PWR fuel with burn-up ranges from 50 to 67 GWd/MTU, initial photon sources and resulting Compton and XRF interactions adequately model the spent fuel measured spectrum and background. The detector simulations also showed the contributions to the Compton continuum from strongest to weakest are as follows: the fuel, the shipping tube, the cladding, the detector can, the detector crystal and the collimator end. The detector simulations showed the relationship between the Pu/U peak ratio and fuel burn-up over predict the measured Pu/U peak but the trend is the same. In conclusion, the spent fuel simulations using modern radiation transport physics codes can model the actual spent fuel measurements but need to be benchmarked. nuclear spent fuel safeguards reprocessing x-ray fluorescence
523	The growth and physics of (La1-xSrx)MnO3∙SrO thin film Chen, Shu-hsiang 29 January 2004 (has links) (La0.67Sr0.33MnO3)£»(SrO), LSMO214(n=1) in short, is 2-D magnetic insulator with a structure very similar to the 3D La0.67Sr0.33MnO3 and La0.67Ca0.33MnO3, 113(n=1) in short, which consists of superstructure of a subsequent magnetic layers and insulating layers. Forming a single 214 phase bulk is not easy, a mix phase of 2<n<¡Û compounds is usually seen. In this project, our goal is to search the best growth condition by the traditional method by varying one growth parameter at a time and by the famous Taguchi methods which is based on the statistics and is proved in many systems a best way in studying the association between the film properties and the control factors. First part of this project, we change one growth condition at a time and find the film quality related with the growth condition. Second, we use ¡§Taguchi method¡¨ as bases to form a perpendicular table in which various growth conditions and levels are set. According the table, the number of experiments is limited down to nine. All of the films are examined by structure, electric and magnetic properties to formed the quality data base for films. The traditional method concludes that the higher growth temperature, lower total chamber pressure and high partial pressure ratio of Ar and Oxygen are the corrected way approaching to the single phase, 214, films. However, the result from Taguchi method is contradict to the tradition method, in which the high growth temperature, high total chamber pressure, low partial pressure ratio of Ar and oxygen and the medium RF forward power can approach to growth the single 214 phase film. All films consists mix phases of higher n. This may imply that the growth window for LSMO 214 is relative narrow that we did not set our condition right in that opening. John - Teller Effect R-T Taguchi method X-ray
524	Transport and Magnetic Properties of Pr1-xBa2+xCu3O7 Hong, I-Po 27 July 2000 (has links) Since the discovery of cuprate superconductors, PrBa2Cu3O7 (Pr123) has attracted much attention due to its nonsuperconductivity and other anomalies. The very recent reports on superconducting Pr123 instead of putting an end of this issue, virtually stimulate more controversies. One of the proposed explanations for the recently observed superconductivity in Pr123 is that the samples could be Ba-rich Pr123 to investigate this possibility, we prepared Pr1-xBa2+xCu3O7 (x=1~0.3) and Pr1-xCaxBa2Cu3O7 (x=0~0.6) as comparison. X-ray absorption near edge spectroscopy (XANES) indicates an increase in carrier concentration with Ba and Ca doping, which is consistent with resistivity and thermoelectric power(TEP) data. However, carriers are introduced in a peculiar why rather than simply add into CuO2 plane. Hybridization X-ray-absorption spectrum Pr123 High-Tc superconductor
525	Probing the High-£e Dielectric-Semiconductor interfaces by X-ray Photoelectron Spectroscopy Liao, Yi-Ying 09 July 2002 (has links) The purpose of this thesis is to probe microscopic compositions and electronic structures at the high-£edielectric-semiconductor interfaces. The samples are prepared by electron beam evaporation, including Y2O3/Si, (Ga2O3-Gd2O3)/GaAs, Gd2O3/GaAs, Gd2O3/GaN and (Ga2O3-Gd2O3)/GaN. The thermal annealing effects on the interfacial properties have been investigated by depth-profiling X-ray photoelectron spectroscopy (XPS) with synchrotron radiation beam. The depth-profiling XPS data show the O-H bonding in all the measured oxide layers. For Y2O3/Si, the hydroxide can be removed by surface desorption at 300¢J, while a Y-Si-O-H state maintained at the interface. The data suggests that the Y-Si-O-H state is possibly formed in the deposition process. For (Ga2O3-Gd2O3)/GaAs, the hydroxide can be removed by surface desorption at 100¢J, and GaOx and GaOy intermediary states have been observed. For Gd2O3/GaAs, the hydroxide can be removed by surface desorption at 250¢J, and a GaOx intermediary state has been observed, and no arsenic oxides have been detected. For Gd2O3/GaN and (Ga2O3-Gd2O3)/GaN, a GaOx intermediary state and little N-O bonding have been observed. Comparing the XPS relative intensity of the N 1s states, (Ga2O3-Gd2O3)/GaN shows a more stable interface than Gd2O3/GaN. X-ray Photoelectron Spectroscopy
526	Damage analysis in asphalt concrete mixtures based on parameter relationships Song, Injun 15 November 2004 (has links) Asphalt pavements experience damage due to traffic loading under various environmental conditions. Damage can be caused by viscopl microcracks, fracture due to fatigue cracking, or fracture due to thermal cracking. Asphalt pavements have the capability to remedi s damage depending on binder surface and rheological properties, filler surface properties, and length of rest periods. Asphalt mastic (asphalt and fine aggregates) properties play an important role in controlling damage and healing. This dissertation development of a comprehensive methodology to characterize damage and healing in asphalt mastics and mixtures. The methodology reli ctive imaging techniques (X-ray CT), principles of continuum damage mechanics, and principles of micromechanics. The X-ray CT yield meter that quantifies the percentage of cracks and air voids in a specimen. The continuum damage model parameters are derived from p between applied stress and pseudo strain. The micromechanics model relates the damaged mastic modulus to a reference undamaged mo ationship is a function of internal structure properties (void size, film thickness, and percentage of voids), binder modulus, aggr and bond energy between binder and aggregates. The internal structure parameters are all obtained using X-ray CT and correlated. The developed methodology was used to characterize damage in asphalt mastic and mixture specimens tested using the Dynamic Mechanic A) and dynamic creep test. The damage parameter measured using X-ray CT correlated very well with the predictions of the continuum ics models. All damage parameters were able to reflect the accumulation of damage under cyclic loading and were also able to captur of moisture conditioning on damage. Although this dissertation focused on fatigue cracking at room temperatures, the methodology d used to assess damage due to different mechanisms such as permanent deformation and low temperature cracking. asphalt pavements damage x-ray ct dma micromechanics model
527	Probabilistic analysis of air void structure and its relationship to permeability and moisture damage of hot mix asphalt Castelblanco Torres, Adhara 12 April 2006 (has links) The permeability of hot mix asphalt (HMA) is of special interest to engineers and researchers due to the effects that water has on asphalt pavement performance. Significant research has been done to study HMA permeability. However, most of the studies primarily focused on relating permeability to the average percent air voids in the mix. Such relationships cannot predict permeability accurately due to the different distributions of air void structures at a given average percent of air voids. Air void distribution is a function of many factors such as mix design, compaction method, and aggregate properties. Recent advances in X-ray computed tomography and image analysis techniques offer a unique opportunity to better quantify the air void structure and, consequently, predict HMA permeability. This study is focused on portraying permeability as a function of air void size distribution by using a probabilistic approach that was previously developed by Garcia Bengochea for soils. This approach expresses permeability as a function of the probability density function (pdf) of the air void size distribution. Equations are derived in this thesis to describe this relationship for laboratory specimens compacted using the linear kneading compactor (LKC) and Superave^TM gyratory compactor (SGC) as well as for field cores (labeled as MS). A good correlation exists between permeability and the pdf of the air voids that formed the flow paths (i.e. connected voids). The relationship between moisture damage, air void structure, and cohesive and adhesive bond energy is also investigated in this study. Moisture damage is evaluated by monitoring changes in mechanical properties due to moisture conditioning. The influence of air void structure on pore pressure is studied using a recently developed program at Texas A&M University that simulates fluid flow and pore pressure in a porous medium. The surface free energy of the aggregates and asphalt are calculated from laboratory measurements using the Universal Sorption Device (USD) and the Wilhelmy Plate method, respectively, in order to test the compatibility of the aggregates with the asphalt in the presence of water. hot mix asphalt x-ray computed tomography permeability
528	Röntgenblick in der Nanowelt / x-ray window to the nanoworld Meyer, Dirk C., Schroer, Christian G. 30 August 2007 (has links) (PDF) For investigations of ordered nanometre structures and for high-precision measurement of the atomic order in crystalline solids, X-ray diffraction is the most important tool. With the aid of X-ray microscopy, unordered and even living objects can also be imaged directly. The resolution of these images, applying different contrast techniques representing the state of the art, reaches the nanometre range. In the future, a synthesis of both methods could yield a shift of the spectral resolution down to the atomic level. / Für die Aufklärung geordneter Nanometer-Strukturen und die hochpräzise Vermessung der Atomanordnung in kristallinen Festkörpern ist die Röntgenstrahlbeugung das wichtigste Werkzeug. Mit Hilfe der Mikroskopie mit Röntgenstrahlung können auch ungeordnete und sogar lebende Objekte direkt abgebildet werden. Die Auflösung dieser Abbildungen unter Nutzung verschiedener Kontraste erreicht nach dem Stand der Technik gerade die Grenze des Nanometerbereiches. Für die Zukunft wird eine Synthese beider Methoden und so auch die weitere Verschiebung der Grenze der erreichbaren Auflösung erwartet. Röntgenstrahlung Nanowelt Nanoworld x-ray window ddc:000 rvk:VE 9850
529	Nanofocusing Refractive X-Ray Lenses / Refraktive Nanofokussierende Röntgenlinsen Boye, Pit 04 March 2010 (has links) (PDF) This thesis is concerned with the optimization and development of the production of nanofocusing refractive x-ray lenses. These optics made of either silicon or diamond are well-suited for high resolution x-ray microscopy. The goal of this work is the design of a reproducible manufacturing process which allows the production of silicon lenses with high precision, high quality and high piece number. Furthermore a process for the production of diamond lenses is to be developed and established. In this work, the theoretical basics of x-rays and their interaction with matter are described. Especially, aspects of synchrotron radiation are emphasized. Important in x-ray microscopy are the different optics. The details, advantages and disadvantages, in particular those of refractive lenses are given. To achieve small x-ray beams well beyond the 100nm range a small focal length is required. This is achieved in refractive lenses by moving to a compact lens design where several single lenses are stacked behind each other. The, so-called nanofocusing refractive lenses (NFLs) have a parabolic cylindrical shape with lateral structure sizes in the micrometer range. NFLs are produced by using micro-machining techniques. These micro-fabrication processes and technologies are introduced. The results of the optimization and the final fabrication process for silicon lenses are presented. Subsequently, two experiments that are exemplary for the use of NFLs, are introduced. The first one employs a high-resolution scanning fluorescence mapping of a geological sample, and the second one is a coherent x-ray diffraction imaging (CXDI) experiment. CXDI is able to reconstruct the illuminated object from recorded coherent diffraction patterns. In a scanning mode, referred to as ptychography, this method is even able to reconstruct the illumination and the object simultaneously. Especially the reconstructed illumination and the possibility of computed propagation of the wavefield along the focused beam yields findings about the optic used. The collected data give interesting information about the lenses and their aberrations. Comparison of simulated and measured data shows good agreement. Following this, the fabrication process of diamond lenses is described. Diamond with its extraordinary properties is well-suited as lens material for refractive lenses. Finally, a concluding overview of the present and future work of nanofocusing lenses is given. / Diese Dissertation beschäftigt sich mit der Entwicklung und Optimierung der Herstellungsprozesse von refraktiven nanofokussierenden Röntgenlinsen. Diese aus Silizium oder Diamant hergestellten Optiken, sind hervorragend für hochauflösende Röntgen\-mikroskopie geeignet. Ziel dieser Arbeit ist es, einen reproduzierbaren Herstellungsprozess zu erarbeiten, der es erlaubt, Siliziumlinsen von hoher Präzision, Qualität und Quantität zu fertigen. Zusätzlich soll ein Prozess für Diamantlinsen entwickelt und etabliert werden. In der folgenden Arbeit werden die theoretischen Grundlagen von Röntgenstrahlung und deren Wechselwirkung mit Materie beschrieben. Spezielle Aspekte der Synchrotronstrahlung werden hervorgehoben. Wichtig im Zusammenhang mit Röntgenmikroskopie sind die verschieden Optiken. Deren Details, Vor- und Nachteile, insbesondere die der brechenden Linsen, werden genannt. Zur Erzeugung fein gebündelter Röntgenmikrostrahlen im Bereich unter 100nm lateraler Größe benötigt man sehr kurze Brennweiten. Mit brechenden Linsen lässt sich dieses mittels eines kompakten Linsendesigns von vielen hintereinander gestapelten Einzellinsen realisieren. Die so genannten refraktiven nanofokussierenden Linsen (NFLs) besitzen eine parabolische Zylinderform mit lateralen Strukturgrößen im Mikrometerbereich. NFLs werden mittels spezieller Technologien der Mikroprozessierung hergestellt. Diese Mikrostrukturierungsverfahren werden mit ihren jeweiligen Prozessschritten und zugehörenden Technologien vorgestellt. Die Ergebnisse der Optimierung und der endgültige Mikrostrukturierungsprozess für Siliziumlinsen werden dargelegt. Im Anschluss daran werden zwei Experimente erläutert, die beispielhaft für die Anwendung von NFLs stehen. Ersteres ist ein ortsaufgelöstes Fluoreszenzrasterexperiment einer geologischen Probe und das zweite ein kohärentes Röntgen-Beugungsexperiment (CXDI). CXDI ist in der Lage, aus kohärent aufgenommen Beugungsbildern das beleuchtete Objekt zu rekonstruieren. Kombiniert mit einem rasternden Verfahren, welches Ptychographie genannt wird, ist diese Methode in der Lage, die Beleuchtungsfunktion und das Objekt gleichzeitig zu rekonstruieren. Besonderes die rekonstruierte Beleuchtungsfunktion und die Möglichkeit der computergestützten Propagation des Wellenfeldes entlang des fokussierten Strahls, geben aufschlussreiche Informationen über die verwendete Optik. Neue Erkenntnisse über die Linsen und deren Aberrationen können so gewonnen werden. Vergleiche von simulierten mit gemessenen Daten zeigen gute Übereinstimmung. Daran anschließend erfolgt die Beschreibung der Entwicklung eines Fabrikationsprozess für Diamantlinsen. Diamant mit seinen außergewöhnlichen Materialeigenschaften ist besonders gut als Linsenmaterial für refraktive Röntgenlinsen geeignet. Abschliessend wird ein zusammenfassender Überblick über die derzeitigen und die zu erwartenden Entwicklungen bei refraktiven Linsen gegeben. nanofocusing refractive x-ray lenses x-ray x-ray microscopy coherent x-ray diffraction diamond lenses silicon lenses illumination function Siliziumlinsen Diamantlinsen Röntgenstrahlung Röntgenmikroskopie kohärente Röntgenbeugung Beleuchtungsfunktion ddc:530 rvk:UH 6400
530	Compact Liquid-Jet X-Ray Sources Hemberg, Oscar January 2004 (has links) <p>This thesis describes the development, characterization andoptimization of compact, high-brightness, liquid-jet-targetx-ray sources. Two different source types have been developedfor different wavelength regions and applications.</p><p>A laser-plasma source for generating soft x-ray andextreme-ultraviolet radiation has been further developed forsoft x-ray microscopy and extreme-ultraviolet lithography. Thiswork focused on improved target stability, increased conversionefficiency and decreased debris production. For x-raymicroscopy applications using carbon-containingliquid-jetdroplet targets, the droplet stability has beeninvestigated and a method for source stabilization introduced.This source has also been optimized in terms of flux per debriswith respect to target material and size. Forextreme-ultraviolet lithography applications, aliquid-xenon-jet-target laser-plasma source system has beengreatly improved, especially in terms of stability andconversion efficiency. This source has also been characterizedin terms of, e.g., source size, angular distribution, andrepetition-rate capability. For extremeultraviolet lithography,the possible use of tin as a target material has also beenstudied and conversion efficiency and debris measurementsperformed.</p><p>A new anode concept for electron-impact hard x-ray sourcesbased on high-speed liquidmetal jets has been introduced.Initial calculations show that this new target concept couldpotentially allow more than a hundred-fold increase in sourcebrightness compared to existing state-of-the-art technology. Alow-power, proof-of-principle, experiment has been performed,verifying the basic source concept. Scaling tohigh-poweroperation is discussed and appears plausible. A main obstaclefor high-power operation, the generation of a microscopichigh-speed jet in vacuum, is investigated usingdynamic-similarity experiments and shown to be feasible.Finally, initial medium-power experiments, approaching currentstate-of-the-art sources in terms of brightness, have beenperformed.</p> liquid-jet x-ray EUV plasma electron beam source

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