Global ETD Search

541	Effect of Weak Inhomogeneities in High Temperature Superconductivity Doluweera, D. G. Sumith Pradeepa January 2008 (has links) No description available. Physics inhomogeneity high-Tc cuprate superconductors checkerboard model weak disorder, maximum entropy QMC DCA
542	Phase evolution and superconducting properties of Nb-Al superconductors processed by a rapid heating/quenching method Buta, Florin 10 February 2003 (has links) No description available. Engineering, Materials Science Nb-Al Nb3Al Nb-Al phase diagram superconductors phase formation critical current
543	Topics in the Theory of Small Josephson Junctions and Layered Superconductors Al-Saidi, Wissam Abdo 12 May 2003 (has links) No description available. Physics, Condensed Matter Small Josephson junctions Layered superconductors Langevin dynamics Vortex dynamics Berry phase
544	Thick film Y₁Ba₂Cu₃Ox on buffered ceramic substrates Barlow, Fred D. III 04 December 2009 (has links) High Temperature Superconductors (HTS) materials are ideal for many electrical applications. These applications include high speed interconnects, microwave structures and transmission lines, as well as electronic devices that utilize the unique electrical and magnetic properties of these materials. To date, the use of high temperature superconductors has been limited to a narrow range of substrate materials, due to the reactive nature of these superconductors. Chemical reactions between the substrate and the superconductor cause decomposition of the superconductor into an insulator. The researcher has developed a thick film system that allows the production of high quality HTS films on reactive substrates, such as alumina (Al203). This system utilizes a thick film buffer layer of pure silver in combination with thick film superconductors composed of Y1Ba2~CU30X. The silver buffer layer is designed to prevent contact between the substrate and the superconductor, thereby eliminating chemical reactions between the two materials. The development as well as the comprehensive characterization of these films is described in this work. / Master of Science LD5655.V855 1994.B376 Ceramic materials High temperature superconductors Thick films
545	High temperature thin film superconductors and microstrip spiral delay lines Tang, Guanghua 24 January 2009 (has links) The field of superconductivity has recently begun to grow in an exponential fashion. This thesis has briefly described a history of superconductivity discoveries, provided the brief literature review about the superconductors. The superconductor material realization and characterization are provided. The delay line design method is presented and various printed delay lines are constructed. The experimental results are presented and discussed. / Master of Science LD5655.V855 1993.T363 Delay lines High temperature superconductors Strip transmission lines
546	Search for evidence of fermi surface nesting in Bi₂Sr₂Ca₁Cu₂O₈ Potter, Charles D. 21 October 2005 (has links) The electron energy loss spectrometer at Virginia Tech has been modified with new momentum deflectors and various other hardware improvements. In addition to some hardware changes all the software to run the spectrometer and analyze the data has been rewritten. It was suggested by Tsuei (1990) that a nested Fermi surface could be used to explain both the fact that these materials have high superconducting transition temperatures and have linear relaxation rates. It was suggested in that same paper that EELS might be able to confirm the presence of Fermi surface nesting. We have attempted to use transmission electron energy loss spectroscopy in a novel way to search for evidence of Fermi surface nesting in the high T<sub>c</sub> superconductor Bi₂Sr₂Ca₁Cu₂O₈. High quality single crystal samples were obtained and thinned for use in the EELS. Data was taken at low energy (<1.0eV) and momentum was scanned along three different momentum transfer directions for \|q\| =0.0 to 3.0Å⁻¹. The data was scaled to be Im(-1/ε). A calculation of Im(-1/ε) was performed using a tight binding model and it was found that the features associated with the Fermi surface (from this TB calculation) were too small to be seen in our spectra. We interpret this problem to be associated with the presence of thermal diffuse scattering. / Ph. D. LD5655.V856 1992.P677 Fermi surfaces Interacting boson-fermion models Spectrometer Superconductors Thermal neutrons -- Scattering
547	Superconductors and high magnetic fields Lewin, Richard Peter January 2012 (has links) This thesis describes a portfolio of work aimed at the high field applications of superconductors and can be split into four main topics: The thermal stability of technical superconductors. This section investigates the effects of thermal perturbations on technical superconducting wire used in MRI scanner construction. The ultimate aim of this section is to predict how the architecture of the wire may affect its thermal stability. To this end a detailed finite element analysis model was constructed, verified by detailed experimental data, which could then be used to quickly and easily vary the wire’s parameters. Design of a high field pulsed electromagnetic coil for flux trapping in superconductors. This section details the design, construction and testing of a novel pulsed high field magnet. The design uses finite element analysis to predict the electromagnetic, thermal and structural properties of the coil. Explosive testing of high tensile fibres used in the construction of the high field coil. This section describes the refinement and use of a novel method for testing the mechanical properties of high tensile fibres in cylindrical geometries by using highly pressurized copper vessels. Pulsed field magnetization of bulk high temperature superconductors. This section discusses the process of magnetizing bulks of high temperature superconductors by using pulsed magnetic fields. It investigates how the trapped field varies with the magnitude and rise-time of the magnetizing field, sample temperature and time after magnetization. 621.3
548	On the Zero and Low Field Vortex Dynamics : An Experimental Study of Type-II Superconductors Festin, Örjan January 2003 (has links) <p>Dynamic properties of type-II superconductors have been experimentally studied in zero and low magnetic fields using SQUID magnetometry and <i>I–V</i> measurements.</p><p>In zero magnetic field close to the critical temperature, the physical properties of type-II superconductors are dominated by spontaneously created vortices. In three dimensions (3D) such vortices take the form of vortex loops and in two dimensions (2D) as vortex-antivortex pairs.</p><p>The 2D vortex dynamics has been probed using mutual inductance and flux noise measurements on YBa<sub>2</sub>Cu<sub>3</sub>O<sub>7</sub> (YBCO) and MgB<sub>2</sub> thin films in zero and low magnetic fields. In such measurements, information about vortex correlations is obtained through a temperature dependent characteristic frequency, below (above) which the vortex movements are uncorrelated (correlated). The results obtained in zero magnetic field indicate that sample heterogeneities influence the vortex physics and hinder the divergence of the vortex-antivortex correlation length.</p><p>In low magnetic fields the vortex dynamics is strongly dependent on the applied magnetic field and a power law dependence of the characteristic frequency with respect to the magnetic field is observed. The results indicate that there is a co-existence of thermally and field generated vortices.</p><p>The <i>I–V</i> characteristics of untwinned YBCO single crystals show that only a small broadening of the transition region influences the length scale over which the vortex movements are correlated. The dynamic and static critical exponents therefore exhibit values being larger in magnitude as compared to values predicted by relevant theoretical models. The results also suggest that the copper oxide planes in YBCO decouple slightly below the mean field critical temperature and hence, the system has a crossover from 3D to 2D behaviour as the temperature is increased. </p><p>From temperature dependent DC-magnetisation measurements performed on untwinned YBCO single crystals in weak applied fields, detailed information about the critical current density and the irreversibility line is obtained.</p> Engineering physics high temperature superconductors thermal fluctuations YBCO MgB2 anisotropic superconductors vortex dynamics Kosterlitz-Thouless transition current voltage characteristics complex conductivity Flux noise Teknisk fysik Engineering physics Teknisk fysik
549	On the Zero and Low Field Vortex Dynamics : An Experimental Study of Type-II Superconductors Festin, Örjan January 2003 (has links) Dynamic properties of type-II superconductors have been experimentally studied in zero and low magnetic fields using SQUID magnetometry and I–V measurements. In zero magnetic field close to the critical temperature, the physical properties of type-II superconductors are dominated by spontaneously created vortices. In three dimensions (3D) such vortices take the form of vortex loops and in two dimensions (2D) as vortex-antivortex pairs. The 2D vortex dynamics has been probed using mutual inductance and flux noise measurements on YBa2Cu3O7 (YBCO) and MgB2 thin films in zero and low magnetic fields. In such measurements, information about vortex correlations is obtained through a temperature dependent characteristic frequency, below (above) which the vortex movements are uncorrelated (correlated). The results obtained in zero magnetic field indicate that sample heterogeneities influence the vortex physics and hinder the divergence of the vortex-antivortex correlation length. In low magnetic fields the vortex dynamics is strongly dependent on the applied magnetic field and a power law dependence of the characteristic frequency with respect to the magnetic field is observed. The results indicate that there is a co-existence of thermally and field generated vortices. The I–V characteristics of untwinned YBCO single crystals show that only a small broadening of the transition region influences the length scale over which the vortex movements are correlated. The dynamic and static critical exponents therefore exhibit values being larger in magnitude as compared to values predicted by relevant theoretical models. The results also suggest that the copper oxide planes in YBCO decouple slightly below the mean field critical temperature and hence, the system has a crossover from 3D to 2D behaviour as the temperature is increased. From temperature dependent DC-magnetisation measurements performed on untwinned YBCO single crystals in weak applied fields, detailed information about the critical current density and the irreversibility line is obtained. Engineering physics high temperature superconductors thermal fluctuations YBCO MgB2 anisotropic superconductors vortex dynamics Kosterlitz-Thouless transition current voltage characteristics complex conductivity Flux noise Teknisk fysik Engineering physics Teknisk fysik
550	Studies On Superconucting, Metallic And Ferroelectric Oxide Thin Films And Their Heterostructures Grown By Pulsed Laser Deposition Satyalakshmi, K M 05 1900 (has links) (PDF) No description available. Laser Deposition High Temperature Superconductors Ferroelectric Oxide Thin Films Thin Films - Fabrication Pulsed Laser Deposition (PLD) Perovskite Related Metallic Oxides Metallic Oxide Thin Films Epitaxial Thin Films Metallurgy

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