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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

SURFACE RESISTANCE OF HIGH TEMPERATURE SUPERCONDUCTOR BY THE RESONANT CAVITY METHOD

KARKI, BHISHMA R. 02 July 2004 (has links)
No description available.
12

Contribution à l'étude d'un insert dipolaire supraconducteur à haute température critique pour accélérateur des particules, utilisent le concept de câble multi-rubans torsadé / HTS dipole insert using a twisted stacked cable for a particle accelerator- Twisted Stacked/ Block-type HTS insert -

Himbele, John 08 December 2016 (has links)
Les travaux de cette thèse portent sur un insert dipolaire de supraconducteur à haute TC (SHT) en utilisant un câble multi-rubans torsadé pour un accélérateur des particules dans le cadre du projet EuCARD2 au CERN. L’insert dipolaire SHT est la seule possibilité aujourd'hui pour aller au-dessus de 16 T pour le futur accélérateur des particules à haute énergie. Deux spécifications de cet insert SHT sont les grands courants de fonctionnement (> 10 kA) et les champs de fond élevés (> 13 T) conduisant à des conditions de fonctionnement sévères. Pour répondre à ces attentes, un premier insert SHT de multi-rubans torsadé/ type de bloc est proposé sur la base des approches analytiques, numériques et expérimentales. Les travaux sont principalement classés dans le design d’insert dipolaire et le design de câble multi-rubans torsadé. Cette thèse se terminée avec la meilleure solution pour l’insert SHT de multi-rubans torsadé/ type de bloc en utilisant le câble partiellement isolé. / This Ph.D. deals with a high Tc superconducting (HTS) dipole insert using a twisted stacked cable for a particle accelerator in the framework of EuCARD2 project in CERN. The HTS dipole insert is the only possibility today to go above 16 T for the future high-energy particle accelerator. Two specifications of these HTS insert are large operating currents (> 10 kA) and high background fields (> 13 T) leading to severe operating conditions. To meet these expectations, a first Twisted Stacked/ Block-type HTS insert is proposed based on analytical, numerical and experimental approaches. The works are mainly classified into dipole insert design and twisted stacked cable design. This Ph.D. ends with the best solution for Twisted Stacked/ Block-type HTS insert using partially-insulated cable.
13

Flux pumping for high-Tc superconducting (HTS) magnets

Geng, Jianzhao January 2017 (has links)
High Tc superconductors are enabling in the generation of extremely high magnetic fields. Flux pumping is a promising technology which can be used to operate HTS magnets without significant loss. In this decade, several HTS flux pumps based on travelling magnetic waves have been developed, yet their physics is still unclear. This thesis established a framework in the area of flux pumping for HTS coils. It revealed the underlying physics of existing travelling wave flux pumps, which is an important theoretical contribution. Based on the thorough understanding of flux pumping mechanism, the author proposed two novel types of flux pumps. The new inventions make flux pumping much easier, more controllable, and much less energy consuming. These flux pumps may promote the future applications of HTS magnets. This thesis can be a guidebook for researchers and engineers in developing flux pumps.
14

Study of second generation high temperature superconductors : electromagnetic characteristics and AC loss analysis

Shen, Boyang January 2018 (has links)
This thesis presents a novel study on Second Generation High Temperature Superconductors, which covers their electromagnetic characteristics and AC loss analysis. Lorentz Force Electrical Impedance Tomography (LFEIT) is one of the most promising hybrid diagnostic scanners with burgeoning potential for biological imaging, particularly in the detection of cancer and internal haemorrhages. The author tried a novel combination of superconducting magnets together with the LFEIT system. The reason is that superconducting magnets can generate a magnetic field with high intensity and homogeneity, which could significantly enhance the electrical signal induced from a sample, thus improving the Signal-to-Noise Ratio (SNR). The author developed four magnet designs for the LEFIT system using the Finite Element Method (FEM) package, COMSOL Multiphysics, and found that a Superconducting Halbach Array magnet can achieve all the requirements (magnetic field properties, geometry, portability, etc.) for the LFEIT system. The optimization study of the superconducting Halbach Array magnet has been carried out on the FEM platform of COMSOL Multiphysics, with 2D models using H-formulation based on B-dependent critical current density and bulk approximation. Optimization focused on the location of the coils, as well as the geometry and number of coils on the premise of maintaining the total amount of superconducting material used in the design. The optimization results showed that the Halbach Array configuration based superconducting magnet is able to generate a magnetic field with an intensity of over 1 Tesla and improved homogeneity. In order to efficiently predict the optimization performance, mathematical formulas were developed for these optimization parameters to determine the intensity and homogeneity of the magnetic field. The mathematical model for the LFEIT system was built based on the theory of the magneto-acousto-electric effect. Then the basic imaging of the electrical signal was developed using Matlab. The magnetic field properties of the magnet design were imported into the LFEIT model. The LFEIT model simulated two samples located in three different magnetic fields with varying magnetic strength and homogeneity. Even if there are no actual alternating currents involved in the DC superconducting magnets mentioned above, they have power dissipation during normal operation (e.g. magnet ramping) and under different background fields. This problem generally goes under the category of “AC loss”. Therefore, the AC loss characteristics of HTS tapes and coils are still fundamentally important for HTS magnet designs, even if they are normally operating in DC conditions. This thesis starts with the AC loss study of HTS tapes. The investigation and comparison of AC losses on Surround Copper Stabilizer (SCS) Tape and Stabilizer-free (SF) Tape have been carried out, which includes AC loss measurement using the electrical method, as well as the real geometry and multi-layer HTS tape simulation using the 2D H formulation by COMSOL Multiphysics. Hysteresis AC losses in the superconducting layer, and eddy current AC losses in the copper stabilizer, silver overlayer and substrate were concerned in this investigation. The measured AC losses were compared to the AC losses from the simulation, using 3 cases of different AC frequency: 10 Hz, 100 Hz, and 1000 Hz. The frequency dependence of AC losses from Stabilizer free Tape and Copper Stabilizer Tape were compared and analysed. A comprehensive AC loss study of a circular HTS coil has been fulfilled. The AC losses from a circular double pancake coil were measured using the electrical method. A 2D axisymmetric H-formulation model using FEM package COMSOL has been established, which was able to make consistency with the real circular coil used in the experiment. To model a circular HTS coil, a 2D axisymmetric model provided better accuracy than a general 2D model, and was also more efficient than a 3D model. Three scenarios were analysed: (1) AC transport current and DC magnetic field, (2) DC transport current and AC magnetic field, (3) AC transport current and AC magnetic field. The angular dependence analysis on the coil under the magnetic field with the different orientation angle  was carried out for all three scenarios. For scenario (3), the effect of the relative phase difference ∆ between the AC current and the AC field on the total AC loss of the coil was investigated. To summarise, a current/field/angle/phase dependent AC loss (I, B, , ∆) study of circular HTS coil has been carried out, which could potentially benefit the future design and research of HTS AC systems. The AC losses of horizontally parallel HTS tapes have been investigated. The AC losses of the middle and end tape of three parallel tapes have been measured using the electrical method, and compared to those of an individual isolated tape. The effect of the interaction between tapes on AC losses has been analysed, and compared with finite element method (FEM) simulations using the 2D H formulation implemented in COMSOL Multiphysics. The electromagnetic induction around the three parallel tapes was monitored using COMSOL simulation. The electromagnetic induction and AC losses generated by a conventional three turn coil were simulated as well, and then compared to the case of three parallel tapes with the same AC transport current. The analysis demonstrated that HTS parallel tapes could be potentially used in wireless power transfer systems, which could have lower total AC losses than conventional HTS coils. By using FEM simulations, cases of increasing number of parallel tapes was considered, and the normalised ratio between the total average AC losses per tape and the AC losses of an individual single tape have been calculated for different gap distances. A new parameter is proposed, Ns, a turning point the for number of tapes, to divide Stage 1 and Stage 2 for the AC loss study of horizontally parallel tapes. For Stage 1, N < Ns, the total average losses per tape increased with the increasing number of tapes. For Stage 2, N > Ns, the total average losses per tape started to decrease with the increasing number of tapes. The analysis demonstrates that horizontally parallel HTS tapes could be potentially used in superconducting devices like HTS transformers, which could retain or even reduce the total average AC losses per tape with large numbers of parallel tapes.
15

Analysis of vortex movement in an YBCO thin film : Models of the vortex solid-to-liquid transition compared to a sensitive resistive measurement of a strongly pinned YBCO thin film

Ellgren, Alex January 2013 (has links)
When a high-temperature superconductor transitions in the presence of a magnetic field, the resistance does not immediately go to zero. Instead, the transition is smoothed by the resistive effects of moving vortices so that perfect conductivity isn't reached until several K below Tc, where the vortices have frozen into a glass state. The properties of this glass depend mainly on the amount and correlation between impurities in the superconductor. This report describes a study of the glass transition in an YBCO thin film rich in uncorrelated impurities. The aim was to use sensitive resistive measurements to determine which of two models of this transition, the vortex glass model and the vortex molasses model, is more accurate. After evaluation, both models are found lacking and a third model is put forth. This model, which resembles the normal distribution, excellently describes the YBCO thin film case. When the new model is tested against data from similar measurements, an YBCO single crystal and a TlBaCaCuO thin film, the results are mixed. Further study is suggested to determine the model's range of validity.
16

Découplage de détecteurs radiofréquences supraconducteurs à très haute sensibilité pour la micro-imagerie par résonance magnétique / High temperature superconducting material for high sensitivity RF coil dedicated to micro MRI

Geahel, Michel 18 May 2018 (has links)
Ce projet de thèse porte sur le développement d'un dispositif instrumental basé sur les propriétés de non linéarité intrinsèques au matériau supraconducteur YBa2Cu3O7, qui restent jusqu'à présent peu explorées dans le régime radiofréquence (RF). Ceci, dans l'objectif de contrôler la commutation d'antennes supraconductrices ultrasensibles dédiées à l'Imagerie par Résonance Magnétique (IRM), de l'état supraconducteur à un état dissipatif. L'implémentation des antennes SHTC en imagerie permet d'atteindre les plus grandes sensibilités de détection observées actuellement en IRM à champ clinique, ce qui ouvre la voie au développement de l'imagerie moléculaire d'agents de contraste. Leur utilisation demeure cependant trop minoritaire et ce, entre autre, à cause de l'incompatibilité de la mise en œuvre des antennes YBa2Cu3O7 avec les méthodes de détection quantitative actuellement implémentées en imagerie moléculaire. Comme les techniques habituelles de découplage d'antennes ne sont pas transposables aux matériaux supraconducteurs, l'inactivation des antennes YBa2Cu3O7 à des échelles de temps compatibles avec une séquence IRM (< 1 msec) est un véritable défi, à la fois scientifique et technologique. Ce travail de recherche a pour but d'évaluer les performances de matériaux supraconducteurs à haute température critique tels que l' YBa2Cu3O7 en champ magnétique et dans le domaine des RF, en fonction de leurs propriétés nano-structurales et géométriques, et de développer un système permettant une commutation ultra rapide (ms) de l'état supraconducteur à l'état dissipatif et réciproquement, afin d'éviter le phénomène de concentration du flux magnétique lors de la phase émission, et de préserver la sensibilité du résonateur supraconducteur lors de la phase détection. / The aim of this work is to develop an instrumental device based on the nonlinear behaviour of superconducting materials such as YBa2Cu3O7 as a function of the emitted rf power, with the objective of controlling the switch between the zero resistance state and a dissipative state. This will then be applied to superconducting ultra-sensitive coils dedicated to magnetic resonance imaging (MRI). The implementation of HTS coils for biomedical imaging improves the sensitivity of the acquired images in standard clinical MRI devices. The superconducting coils are currently not implemented because of their incompatibility with quantitative detection methods used in molecular imaging today. As usual decoupling techniques for pick-up coils are not transferable to superconducting materials, the inactivation of superconducting YBa2Cu3O7 coils is a technical and a scientific challenge. The overall objective of this research work is to evaluate the performance of HTS materials in non-zero magnetic fields, in the radiofrequency regime, as a function of the nanostructural and geometric attributes of the material. Based on this, I shall develop a system for ultra-fast switch (msec) from the superconducting state to the dissipative state and vice versa, to avoid the phenomenon of of magnetic flux concentration during the emission phase.
17

Nature and organization of the CuO 2 -plane

Dudy, Lenart E. 03 April 2009 (has links)
Diese experimentelle Arbeit beschäftigt sich mit Einkristallen der Bi Kuprate. Mittels Rastertunnelmikroskopie und der Beugung langsamer Elektronen wurde die strukturellen Eigenschaften untersucht. Es wurde ein bestehendes pseudobinäres Blei-Temperatur Phasendiagram erweitert. Mittels der Charakterisierungsresultate der energiedispersive Röntgenspektroskopie und der AC-Suszeptibilität wurde gezeigt, dass an bestimmten Lochdotierungen die Sprungtemperatur unterdrückt ist. Diese Tatsache wird für zwei Variationen des Bi2201 Kuprat-Systems bewiesen - durch Literaturdaten auch für LSCO. Desweiteren wurde argumentiert, dass die sogenannte Checkerboard-Ordnung nicht eine Ordnung der elektronischen Struktur ist. Vielmehr kann davon ausgegangen werden, dass Sie durch Dotanten-Atome verursacht wird. Dabei könnte der zusätzlichen Sauerstoff eine Bedeutung haben. Die Pseudolücken-Phase wurde mittels winkelaufgelöster Photoemission (ARPES) sowie Widerstandsmessungen untersucht. Durch ARPES konnte gezeigt werden, dass die Lücke in der antinodalen Richtung keinen grossen Anteil einer Supraleitungslücke aufweist, sondern mehr von der Pseudolückenphase bestimmt ist. Es wurde festgestellt, dass in der winkelaufgelösten Photoemission nur eine Übergangstemperatur sichtbar war, während bei den Widerstandsmessungen zwei Übergangstemperaturen sichtbar waren. Zudem wurde gezeigt, dass die Pseudolückenphase auch auf der überdotierten Seite existiert. Ein ganz und gar neues Ergebnis ist der dotierungsabhängige Verlauf der Pseudolücken-Temperatur und der in ARPES gemessenen Pseudolücke. Es zeigte sich dort zweifelsfrei, dass die Pseudolücken-Eigenschaften an genau denselben Dotierungen starke Änderungen aufweisen, an denen auch die Sprungtemperatur unterdrückt ist. Deshalb wurde propagiert, dass die Supraleitung durch Paarung von Defektlöchern in einem ansonsten magnetisch- und ladungs-hochgeordnetem Elektronensystem entsteht. / This thesis deals with the experimental exploration of the high-temperature superconducting Bi-cuprate system and mainly with single crystals of the one-layer Bi2201. To begin, the structural change resulting from Pb substitution was explored by using topological scanning tunneling microscopy (STM) and low-energy electron diffraction (LEED). The resulting morphologies were explained in a pseudo-binary phase-diagram. Using energy dispersive x-ray analysis and AC-susceptibility, it was proven that, for two variations of Bi2201 and also for LSCO, the superconducting transition temperature (TC) always drops at the same hole-doping values - an effect that might be explained by the so-called ''magic doping fractions''. By analyzing STM-data, it was reasonably argued that the so-called ''checkerboard order'' is not preferentially due to an ordering of the carriers in the Copper-Oxygen-plane. In the interpretation presented here, it is caused by dopant-atoms or dopant-complexes. The role of the Oxygen might be of particular importance. Measurements concerning the pseudogap-phase were then shown. Using angular resolved photoemission (ARPES), it was found that the gap in the antinodal direction is dominantly caused by the pseudogap-phase. Interestingly, while resistivity measurements detect two crossover temperatures, ARPES detects only the lower pseudogap-temperature. It can also be stated that the pseudogap also exists in the overdoped region. The most important finding about the pseudogap-temperature and the pseudogap-magnitude was that they also react on the doping values of the depressions in TC. Due to this finding, it was proposed that superconductivity occurs when an otherwise perfect charge-ordered and spin-ordered two-dimensional electronic system has mobile defective holes.
18

Studies of fault current limiters for power systems protection : a project report submitted in partial fulfilment of the requirements for the degree of Master of Engineering in Information and Telecommunication Engineering, Institute of Information Sciences and Technology, Massey University, Palmerston North, New Zealand

Malhi, Gurjeet Singh Unknown Date (has links)
In today’s technological world, electrical energy is one of the most important forms of energy and is needed directly or indirectly in almost every field. Increase in the demand and consumption of electrical energy leads to increase in the system fault levels. It is not possible to change the rating of the equipment and devices in the system or circuits to accommodate the increasing fault currents. The devices in electronic and electrical circuits are sensitive to disturbance and any disturbance or fault may damage the device permanently so that it must be replaced. The cost of equipment like circuit breakers and transformers in power grids is very expensive. Moreover, replacing damaged equipment is a time and labour consuming process, which also affects the reliability of power systems. It is not possible to completely eliminate the faults but it is possible to limit the current during fault in order to save the equipment and devices in the circuits or systems. One solution to this problem is to use a current limiting device in the system. There are many different types of approaches used for limiting fault currents Two different approaches to limit fault currents have been discussed by the author. One is Passive Magnetic Current Limiter (MCL) and another is High Temperature Superconductor Fault Current Limiter (HTSFCL). Both are passive devices and they do not need any sensor or external sources to perform their current limiting action. The first device consists of two ferrite cores and a permanent magnet which is sandwiched between the two saturated cores and it is called Magnetic Current Limiter. Experimental results with the MCL in circuit are discussed. Both field and thermal models of the MCL have been simulated using finite element software, FEMLAB. The demonstration of the High Temperature Superconductor Fault Current Limiter (HTSFCL) in power systems has been explained. The MATLAB simulation of the HTSFCL has been done and the results with and without the fault are shown. Power System Analysis Toolbox (PSAT) software has been used to locate the optimum or the best location of HTSFCL in a nine bus system. It has been shown that it is possible to find a solution that limits the fault current in power systems. Depending on the size of the system, either the MCL or the HTSFCL can be implemented. The location of the HTSFCL is to be carefully selected to achieve optimum results.
19

Exploring Nuclear Magnetic Resonance at the Highest Pressures

Meißner, Thomas 10 June 2013 (has links) (PDF)
Die vorliegende Arbeit beschäftigt sich mit der Entwicklung und Anwendung der Kernmagnetresonanz (NMR) unter extremen Drücken bis 101 kbar. Es wird gezeigt, dass die Empfindlichkeit von NMR Experimenten unter hohen Drücken in Diamantstempel- und ähnlichen Hochdruckzellen im Vergleich zu früheren experimentellen Versuchsanordnungen durch Verwendung von Mikrospulen um mehrere Größenordnungen verbessert werden kann. Die neue Versuchsanordnung wird dann zum einen bei der Untersuchung der Druckabhängigkeit elektronischer Eigenschaften von metallischem Aluminium bis 101 kbar verwendet. Zum anderen wird damit der Pseudogap des Hochtemperatursupraleiters YBa2Cu4O8 bei Drücken bis zu 63 kbar untersucht.
20

Monte Carlo Study of the Magnetic Flux Lattice Fluctuations in High-<em>T<sub>c</sub></em> Superconductors

Beny, Cedric January 2005 (has links)
By allowing to measure the magnetic field distribution inside a material, muon spin rotation experiments have the potential to provide valuable information about microscopic properties of high-temperature superconductors. Nevertheless, information about the intrinsic superconducting properties of the material is masked by random thermal and static fluctuations of the magnetic field which penetrates the material in the form of vortices of quantized magnetic flux. A good understanding of the fluctuations of those vortices is needed for the correct determination of intrinsic properties, notably the coherence length &xi;, and the field penetration depth &lambda;. We develop a simulation based on the Metropolis algorithm in order to understand the effect, on the magnetic field distribution, of disorder- and thermally-induced fluctuations of the vortex lattice inside a layered superconductor. <br /><br /> Our model correctly predicts the melting temperatures of the YBa<sub>2</sub>Cu<sub>3</sub>O<sub>6. 95</sub> (YBCO) superconductor but largely underestimates the observed entropy jump. Also we failed to simulate the high field disordered phase, possibly because of a finite size limitation. In addition, we found our model unable to describe the first-order transition observed in the highly anisotropic Bi<sub>2</sub>Sr<sub>2</sub>CaCu<sub>2</sub>O<sub>8+<em>y</em></sub>. <br /><br /> Our model predicts that for YBCO, the effect of thermal fluctuations on the field distribution is indistinguishable from a change in &xi;. It also confirms the usual assumption that the effect of static fluctuations at low temperature can be efficiently modeled by convolution of the field distribution with a Gaussian function. However the extraction of &xi; at low fields requires a very high resolution of the field distribution because of the low vortex density.

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