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161	STRUCTURE-INDUCED OPTICAL ANISOTROPY IN THIN FILMS. HOROWITZ, FLAVIO. January 1983 (has links) We consider in this work the contribution of anisotropic microstructure to polarization effects in thin films. The microstructure is pictured by a simple model as composed of identical columns with elliptical cross section elongated in a direction perpendicular to that of the vapor incidence. The asymmetry in columnar structure that results from oblique deposition is identified as the common source for the significant dichroism and birefringence observed in metal and dielectric films, respectively. A four-dimensional theory for multilayer systems is presented that starts from first principles, unifies previous treatments for particular cases of film anisotropy, and properly handles the most general case of elliptically polarized mode propagation. In this framework and from a set of polarimetric measurements, a simple method is devised, with explicit consideration of the anisotropic microstructure, for the determination of the physical thickness and principal refractive indices of a single dielectric film. A sequence of transmittance measurements is performed with a zirconium oxide film deposited at 65° and, substrate role and instrumental errors considered, good agreement is obtained between theory and experiment. Spectrophotometer data for a narrowband filter with 21 layers deposited at 30° is shown to confirm theoretical predictions of peak positions with Angstrom resolution. A hypothetical metal film is discussed that reproduces the essential features observed in the optical behavior of an aluminum film deposited at 85°. Potential applications and suggestions for future work are included. Anisotropy. Optical films. Thin films -- Optical properties.
162	The magnetic and microstructural properties of TbFeCo films Yasseen, Kalim Mahmood January 1995 (has links) No description available. 530.41
163	Magnetocrystalline Anisotropy in(FexNi1-x)2B Materials Stangel, Anders January 2016 (has links) The magnetic properties of the (FexNi1-x)2B family of materials are explored using DFT calculations utilizing the FPLO and SPR-KKR code packages. It is found that a uniaxial magnetocrystalline anisotropy exists at around x = 0.8 with a magnetocrystalline anisotropy energy at around 0.3 MJ/m^3. A calculation of the lattice constant for these materials were attempted but failed due to the emergence of local minima and the calculations of magnetic properties were instead done using lattice parameters interpolated between known experimental values. Magnetocrystalline anisotropy magnetism DFT permanent magnets
164	The Diurnal Variation of Cosmic Radiation Fowler, Brooks C. 08 1900 (has links) The primary purpose of this investigation was to study the diurnal variation of cosmic-ray intensity. cosmic ray variation radiation physics anisotropy
165	Compressive Mechanical Properties and Collagen Fiber Orientation and Dispersion in the Cervix of Non-Pregnant and Pregnant Women Yao, Wang January 2017 (has links) The cervix serves as the passage for the fetus during birth. The mechanical function of the cervix is crucial for a healthy term pregnancy: 1) prior to term it must remain closed and resist the increasing mechanical load from the growing pregnancy and 2) at time of parturition it must soften, deform and dilate to allow for delivery of the fetus. After delivery, the cervix must repair and close. The timing and characteristics of this remodeling behavior is currently an active research focus because it is hypothesized that premature remodeling in pregnancy can lead to preterm birth, a leading cause of neonatal death or significant neonatal morbidity. The research goal was to measure and characterize anisotropic material properties because they contribute to keeping cervix shut. In this thesis, the collagen fiber network orientation and dispersion of non-pregnant and pregnant human cervical tissue samples were analyzed using optical coherence tomography, and the samples were tested using mechanical indentation and digital image correlation techniques. Human cervices were acquired from non-pregnant and pregnant consented patients that went through hysterectomy. Axial cervical slices were imaged using optical coherence tomography and fiber orientation and dispersion data was analyzed using a new pixel-wise fiber orientation algorithm and was compared among four anatomical quadrants and among patients with different obstetric backgrounds. Two radial zones with different fiber orientations were found. The posterior and anterior quadrants of the outer zone were found to have distinct fiber dispersion features and their fiber dispersion shifted most dramatically from non-pregnant to pregnant. In an effort to characterize the compressive mechanical behavior of human cervical tissue, we present a novel indentation test with digital correlation imaging to visualize the real-time deformation of cervical slice during indentation and measure the compressive mechanical properties through coupled finite element analysis with collagen fiber orientation and dispersion information informed by OCT of non-pregnant and term pregnant cervical tissue. Heterogeneity within the same cervix and difference between non-pregnant and pregnant cervices were found. The upper cervix was found to have a stronger ground substance. The anterior and posterior quadrants were less compressible than the left and right quadrants for non-pregnant specimens. The upper cervix of non-pregnant patients had a stronger ground substance than that of pregnant patients. A workflow of optical, mechanical, and chemical experiments on the same piece of specimen with most fibers intact was also proposed in this thesis and these experiments would validate and inform each other. Mechanical engineering Cervix uteri Collagen Anisotropy
166	Relationship between Anisotropy and Dispersive Stress in Wind Plants with Variable Spacing Dib, Tamara S. 12 March 2018 (has links) Large eddy simulations are considered for wind plants with varied spanwise and streamwise spacing. Data from five different configurations of staggered and aligned LES wind turbine arrays with a neutrally stratified atmospheric boundary layer are employed for analysis. Fields are analyzed by evaluating the anisotropy stress invariants based on the Reynolds shear stresses and dispersive stress tensor. The relationship between quantities are drawn as a function of the wind plant packing. Reynolds stresses and dispersive stresses are investigated alongside a domain altered version of the second and third scalar invariants, ξ, η, as well as the combination of the two invariants described by the function F = 1−27η 2 + 54ξ 3. F is a measure of the approach to either a two-component turbulence (F=1) or an isotropic turbulence (F=0). The invariant η describes the degree of anisotropy while ξ describes the characteristic shape. For the purposes of this study, the LES data is analyzed to understand the effects of canopy density on anisotropy and dispersive stresses, adding further insight and detail for future modeling techniques. Wind turbines Turbulence -- Measurement Anisotropy Mechanical Engineering
167	Etude expérimentale de la multifissuration et de la décohésion de films minces et nanostructures magnétiques sur substrats flexibles : effet sur l'anisotropie magnétique / Non communiqué Merabtine, Skander 15 December 2017 (has links) Les systèmes magnétiques flexibles et étirables sont d’intérêt croissant pour le développement de dispositifs électromagnétiques conformables aux surfaces non planes. Dans ce contexte, l’objectif de cette thèse est d’identifier des relations entre phénomènes mécaniques irréversibles (fissuration et délamination) aux grandes déformations et propriétés magnétiques de films minces d’épaisseurs nanométriques (alliages de CoFeB et NiFe) élaborés sur substrat polymère (Kapton®) par pulvérisation magnétron. Dans un premier temps, des essais de traction couplés in situ à la microscopie à forces atomiques ou des mesures de résistance électrique ont permis d’étudier la multifissuration des films minces et les décollements localisés (cloques) subséquents. Ces mesures ont permis de mettre en évidence des domaines de déformations macroscopiques pour lesquels chaque mécanisme était prépondérant. De plus l’énergie d’adhésion a pu être discutée et estimée à partir du suivi des cloques sous déformation. Dans un second temps, des mesures par résonance ferromagnétique effectuées ex situ ont permis de relier les domaines des déformations identifiés précédemment aux évolutions de l’anisotropie magnétique des films minces. De plus, une corrélation entre hétérogénéités de déformations et coefficient d’amortissement de Gilbert a été trouvée. Enfin, les propriétés magnétomécaniques de réseaux de nanolignes de NiFe ont permis de mettre en évidence l’intérêt de la nanostructuration pour ces systèmes magnétiques déformables. / Flexible and stretchable magnetic systems are of increasing interest for the development of electromagnetic devices conformable to non-planar surfaces. In this context, the objective of this thesis is to identify the relationships between irreversible mechanical phenomena (cracking and delamination) at large strains and magnetic properties of thin films of nanometric thicknesses (CoFeB and NiFe alloys) deposited on polymer substrate (Kapton®) by magnetron sputtering. In a first time, tensile tests coupled in situ with atomic force microscopy or electrical resistance measurements were used to study thin film multifissuration and subsequent localized debonding (buckles). These measurements made it possible to highlight areas of macroscopic strains for which each mechanism was predominant. In addition, the adhesion energy could be discussed and estimated from the monitoring of the buckles under applied strain. In a second step, ferromagnetic resonance measurements carried out ex situ made it possible to link the previously identified areas of strains to the evolutions of the magnetic anisotropy of thin films. In addition, a correlation between strain heterogeneities and Gilbert damping coefficient was found. Finally, the magnetomechanical properties of NiFe nanowires arrays have made it possible to highlight the advantage of nanopatterning for these deformable magnetic systems. Anisotropie magnétique Décohésion Nanostructures magnétiques Magnetic anisotropy
168	Chemoporoelastic solution of transversely isotropic saturated porous media Perez, Arturo Diaz. January 1900 (has links) (PDF) Thesis (Ph.D.)--University of Oklahoma, 2004. / Title from title screen (viewed on Dec. 7, 2007). Title from document title page. Includes bibliographical references. Available in PDF format via the World Wide Web.
169	Quantum Wavepacket Dynamics in Molecular and Trapped Ion Systems Wang, Dong January 2008 (has links) <p>The motions of a wavepacket in the two coupled potentials studied in this thesis can be classified into either bistable or astable motion according to the wavepacket interference at the curve crossing. Bistable motion, in which the wavepacket performs a coupled oscillation but remains in the same adiabatic and diabatic state, can exist both in bound-bound systems and bound-unbound ones with long time stability. Astable motion, in which the wavepacket at the curve crossing switches between the adiabatic and diabatic states and thus alternates between the two possible turning points in the unforked part of the motion, can only exist in bound-bound systems on a limited time scale. The motion of a wavepacket under bistable interference conditions exhibits all of the features expected if the wavepacket moved in a single anharmonic potential. The revival time can be predicted from the revival times in the corresponding diabatic and adiabatic potentials. The phenomenon was observed not only in model molecular systems but also in the system of the harmonically trapped ion pumped by an external laser field with standing wave spatial profile.</p><p>In order to study the bias effect of the detector on pump-probe rotational anisotropy measurements, in a specific direction the fluorescence polarization effect was removed by measuring the rovibrational wavepacket with the help of properly oriented polarizer placed in front of the detector. Our results show clearly the necessity to take polarization effects into account in ultrafast pump-probe rotational anisotropy measurements.</p> wavepacket revival anisotropy polarization Molecular physics Molekylfysik
170	Influence of composition, grain size and manufacture process on the anisotropy of tube materials Gullberg, Daniel January 2010 (has links) <p>A problem with cold pilgered tubes for OCTG applications is that they can get anisotropic properties with regard to yield strength. One source of anisotropy is texture that is developed during the cold deformation. EBSD measurements have been made on several austenitic stainless steels with different deformations to see what influence the composition has on the texture formation. The same measurements were used to study the influence of grain size on texture formation. The conclusion was that the composition can have an impact on the texture and hence has potential to also affect the anisotropy. The differences in texture cannot be associated with a specific alloying element, but is rather a synergetic effect. It was also concluded that grain structure has no strong influence on texture formation. An evaluation of three different tool designs used for cold pilgering was made. The designs evaluated are referred to as design A, B and C. EBSD measurements showed large deviations in texture in the middle of the wall compared to close to the surface of pilgered OCTG. However, the measurements showed no large differences between the three designs and the texture could not be coupled to the anisotropy.</p> Anisotropy austenitic stainless steel cold deformation texture

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