Global ETD Search

61	High-Temperature Superconductor Step-Edge Fabrication for the Implementation of RSFQ Circuits Snetler, Lukas Hendrick 03 1900 (has links) Thesis (MScEng (Electrical and Electronic Engineering))--University of Stellenbosch, 2005. / High-temperature superconductive (HTS) logic has become a large research field worldwide. The HTS advantages compared to the low-temperature circuits are the reduced cooling requirements, increased or comparable operation speeds and the "ease" of manufacturing. The potential of HTS logic circuits is vast and surpassed by very few other technologies. However, before these circuits can reach the market, suitable simulation packages and fabrication processes have to be designed. The simulation of HTS Rapid Single Flux Quantum (RSFQ) circuits are performed at temperatures between 30 and 77 Kelvin. The noise sources in Josephson junctions (JJ’s) are investigated and incorporated into these simulations. The results show that it is possible to operate these circuits in this temperature range. An objective of this thesis is the fabrication of HTS step-edge JJ’s. A process to fabricate these junctions was investigated and improved. This includes the etching of substrate steps with the use of the argon ion mill, deposition of the YBCO thin films with the Pulsed Laser Deposition (PLD) system and the etching of the final circuit by the use of dry or wet etching. High temperature superconductors Microwave circuits Josephson junctions Electrical and Electronic Engineering
62	Manipulation optique de vortex d’Abrikosov individuels / Optical manipulation of single Abrikosov vortices Magrini, William 08 November 2017 (has links) Ce travail de thèse est principalement axé sur le développement d’une nouvelle méthode de manipulation de vortex d’Abrikosov individuels dans les supraconducteurs de type II. Cette méthode, rapide, efficace et précise, est basée sur l’optique en champ lointain et repose sur l’échauffement local du supraconducteur sous l’action d’un faisceau laser focalisé. Elle apporte une excellente alternative aux techniques existantes de manipulation de vortex, toutes basées sur l’utilisation de sondes locales, et donc intrinsèquement lentes et difficiles à mettre en oeuvre dans un environnement cryogénique. La combinaison de cette méthode à une technique d’imagerie magnéto-optique performante permet de déplacer des vortex individuels avec un taux de réussite de 100% et sur de grandes échelles limitées uniquement par le champ de l’objectif de microscope. Les vitesses de manipulation atteintes sont élevées, de l’ordre de 10 mm.s-1, mais encore limitées par l’instrumentation utilisée et loin des limites fondamentales offertes par cette méthode, estimées au km.s-1. La méthode de manipulation optique permet aussi de mesurer la distribution des forces de piégeage de chaque vortex d’un échantillon. En utilisant des puissances de chauffage laser permettant de dépasser localement la température critique, nous avons également pu étudier la pénétration des vortex à l’interface entre une zone normale et une zone supraconductrice.Durant ces travaux, nous avons aussi eu l’opportunité de mettre en évidence, par spectroscopie de molécules uniques, l’effet flexomagnétoélectrique dans un matériau multiferroïque, en employant un supraconducteur de type I comme générateur de champ magnétique inhomogène. Enfin, nous proposons à la fin de ce mémoire un concept de jonction Josephson créée tout optiquement, et dont les propriétés seraient contrôlables en temps réel par laser. / This thesis focuses on the development of a new manipulation technique to handle single Abrikosov vortices in type II superconductors. This fast, efficient and precise method is based on far field optics and rests on the local temperature elevation produced by a focused laser beam. It brings an excellent alternative to the existing techniques which are all based on local probes and thus heavy to implement in a cryogenic environment. The combination of this method with an efficient magneto-optical imaging system allows us to manipulate single vortices with a 100% rate of success on a large scale only limited by the field of view of the microscope objective. Manipulation speeds are high, of the order of 10 mm.s-1, but still limited by our setup and far from the fundamental limits offered by this technique, estimated to the km.s-1. This manipulation technique also allows to measure the pinning force of any single vortex in a superconducting sample. By using a high enough laser power which locally pushes the temperature above the critical temperature, we could also study the vortex penetration at the interface between normal and superconducting areas.In the course of this work, we also evidenced, with single molecule spectroscopy, the flexomagnetoelectric effect in a multiferoic material, by using a type I superconductor as a source of inhomogeneous magnetic field. Finally, we propose at the end of the manuscript the new concept of an optically created Josephson junctions, whose properties could be controlled in real time just with a laser beam. Vortex d’Abrikosov Pinces optiques Matériaux multiferroïques Molécules individuelles Jonctions Josephson Abrikosov vortices Optical tweezers Multiferroic materials Single molecules Josephson junctions
63	Properties of small Bi2Sr2CaCu2O8 intrinsic Josephson junctions: confinement, flux-flow and resonant phenomena Katterwe, Sven-Olof January 2011 (has links) In this thesis, intrinsic Josephson junctions, naturally formed in the strongly anisotropic high-temperature superconductor Bi2Sr2CaCu2O8 (Bi-2212), are studied experimentally. For this purpose, small mesa structures are fabricated on the surface of single crystals using micro- and nano-fabrication tools, focused ion beam is used to reduce the area of the mesa-structures down to ≈ 1 × 1 μm2. The properties of charge transport across copper-oxide layers inside the mesas are studied by intrinsic tunneling spectroscopy. Temperature, bias and magnetic field dependences of current-voltage characteristics are examined. In the main part of the thesis, the behavior of intrinsic Josephson junctions in magnetic fields B parallel to the copper-oxide planes is studied. Parallel magnetic fields penetrate the junctions in the form of Josephson vortices (fluxons). At high magnetic fields, fluxons are arranged in a regular lattice and are accelerated by a sufficient high transport current. As the fluxon lattice is moving through the mesa, it emits electromagnetic waves in the important THz frequency range. Properties of Bi-2212 mesas in this flux-flow regime are studied in this thesis. The following new observations were made during the course of this work: a crossover from thermal activation above Tc to quantum tunneling below Tc is seen in the interlayer transport-mechanism, the Fraunhofer pattern of Ic(B) is observed clearly in Bi-2212, superluminal electromagnetic cavity resonances and phonon-polaritons are observed in Bi-2212. It is argued that the employed technique for miniaturization of mesas and the obtained results can be useful for a better understanding of fundamental properties of high-temperature superconductors and for the realizations of coherent flux-flow oscillators and coherent phonon-polariton generators in the important THz frequency range. / At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 6: Manuscript. high-temperature superconductivity intrinsic Josephson junctions tunneling fluxons flux-flow oscillator THz-emission cavity resonances polaritons micro/nano-fabrication
64	Réseaux de SQUIDs à haute température critique pour applications dans le domaine des récepteurs hyperfréquences / HTC SQUID networks for microwave applications Recoba Pawlowski, Eliana 28 May 2019 (has links) Les circuits à base de jonctions Josephson comme les filtres à interférences quantiques, nommés SQIF (Superconducting Quantum Interference Filter), sont des capteurs très sensibles au champ magnétique. Les éléments de base d’un tel circuit sont les SQUID (Superconducting Quantum Interference Device). Aussi performants dans la détection de champ magnétique, ces derniers ne permettent pas de réaliser des mesures absolues. De plus, la nécessité d’un asservissement par une boucle à verrouillage de flux limite la bande de fréquence d’utilisation. Les SQIF n’ont pas cette limitation et permettent les mesures absolues de champ magnétique. Leur capacité à combiner une taille compacte, une très bonne sensibilité et une large bande fréquentielle d’utilisation fait de ces capteurs des sérieux concurrents aux antennes classiques. Des mesures expérimentales avec des SQIF HTS faits par la technologie de jonctions irradiées montrent qu’il est possible de réaliser la détection de signaux radiofréquence jusqu’au moins 5 GHz en configuration de champ proche et en environnement non magnétiquement blindé. Afin de réaliser l’adaptation d’impédance et améliorer les caractéristiques DC de ces capteurs, différentes géométries de réseau sont étudiées. L’étude permet de définir les paramètres d’importance dans la conception de circuits SQIF afin de réaliser des détecteurs radiofréquence performants. / Superconducting Quantum Interference Filters (SQIF) are Josephson circuits very sensitive to magnetic field. They are made of arrays of SQUIDs (Superconducting QUantum Interference Devices). The latter, when operated alone, doesn’t allows absolute magnetic field measurements and have to be used with a flux locked loop, which limits the frequency band of operation. SQIFs doesn’t have such limitations and they offer the possibility to combine compactness, sensitivity and wide band of frequency at the same time. Because of this, SQIFs are serious concurrents to classical antennas in microwave applications. Experimental measurements made with HTS SQIFs and irradiated Josephson junctions shows that it is possible to detect microwave signals up to 5 GHz in an unshielded environment, and near field configuration. To perform better detection, it is important to match impedance of circuits. In the goal to do this and to improve DC characteristics, different network geometries are studied. At the end this study allows to define which parameters are important in the design of SQIF circuits for microwave detection. SQIF SQUID Hyperfréquence Détection de champ magnétique Jonctions Josephson irradiées SQIF SQUID Microwave Magnetic field detection Irradiated Josephson junctions Superconductivity
65	Topics in the physics of underdamped Josephson systems Tornes, Ivan Edward 15 March 2006 (has links) No description available. Physics, Condensed Matter Josephson junctions Multiphoton transitions Rabi Oscillations Qubits Self induced resonant steps Soliton Vortex Fractionalization Zigzag ladder
66	Magnesium Diboride Superconducting Devices and Circuits Galan, Elias Jason January 2015 (has links) While magnesium diboride (MgB2) was first synthesized in the 1950s, MgB2’s superconductive properties were not discovered until 2001. It has the highest superconducting transition temperature of all the metallic superconductors at ~39 K at atmospheric pressure. MgB2 is also unique in that it has a two superconductive gaps, a pi gap at 2 meV and a sigma gap at 7.1 meV. There are a theoretical models discussing the inter- and intra- gap scattering of the superconductivity of MgB2 and the Josephson transport of MgB2 Josephson Junctions. The focus of this work is to further the study of all-MgB2 Josephson junctions and quantum interference device technology. This work discusses the transport in all-MgB2 Josephson junctions and designing, fabricating, and measuring multi-junction devices. The junctions studied include all-MgB2 sandwich-type Josephson junctions (one with TiB2 normal conducting barrier and another with an MgO insulating barrier). The junction MgB2 films were deposited by hyprid physical-vapor deposition and the junction barrier were deposited by sputtering. The junctions were patterned and etched with UV photolithography and argon ion milling. With the TiB2 barrier we studied Josephson transport by the proximity effect. With these junctions, we also observed complete suppression of the critical current by an applied magnetic field showing for the first time a leakage free barrier in an all-MgB2 Josephson junction with a single ultrathin barrier. We also studied junctions utilizing MgO barrier deposited by reactive sputtering which gave a larger characteristic voltage of 1-3 mV compared to TiB2 barriers. By connecting several SQUIDs with varying loop areas we developed of two types of superconducting quantum interference filters (SQIFs). The first SQIF designed with 21 SQUIDs connected in parallel and the SQUID loops are sensitive to magnetic fields applied parallel to the substrate. The SQUID loop areas were designed to vary in such a way that the voltage modulation gave a unique peak corresponding to the absolute value of the applied magnetic field. The SQIF shows an antipeak height of 0.25 mV with a transfer function of 16 V/T at 3 K. The lowest noise measured for this SQIF is 110 pT/Hz1/2. The second SQIF is designed with 17 SQUIDs in parallel and the SQUID loops are sensitive to magnetic field perpendicular to the substrate. This SQIF has shown improved voltage modulation with a peak height of 1 mV and a transfer function of 7800 V/T. The noise sensitivity was measured at 70 pT/Hz1/2. The sensitivity of the SQIF shows MgB2 potential superconductor to improve performance of current superconductive electronics. Utilizing known all-MgB2 junctions and SQUID parameters two rapid single flux quantum (RSFQ) circuits were designed and tested. A toggle flip flop (TFF) operating as a frequency divider was developed. The TFF design consisted of a Josephson transmission line, a splitter, and an interferometer (a DC SQUID). The TFF utilized an improved designed, compared to previous all-MgB2 TFFs, and showed operation up to 335 GHz at 7 K and operation up to 30 K. A low frequency set-reset flip flop (SRFF) was also developed to demonstrate RSFQ digital logic. The SRFF design includes a DC-SFQ converter, a Josephson transmission line, and an inductively coupled readout SQUID. The SRFF demonstrates proper digital logic by toggling between a high and low voltage state with a sequential set and reset input. While these developed devices are not close to the potential that MgB2 allows, they do show the promise MgB2 based devices have in making more sensitive and faster superconductive logic devices. / Physics Physics, Condensed Matter Electromagnetics Engineering Josephson Effect Josephson Junctions Magnesium Diboride Squids Superconducting Devices Superconducting Digital Circuits
67	Fabrication of Josephson junctions using AFM nanolithography Elkaseh, Akram Abdulsalam 12 1900 (has links) Thesis (PhD (Electrical and Electronic Engineering))--University of Stellenbosch, 2010. / Dissertation presented for the degree of Doctor of Philosophy in Engineering at the University of Stellenbosch / ENGLISH ABSTRACT: Planar weak link structures, such as micro-bridges, variable thickness bridges and nanobridges, have always attracted a lot of attention. Their potential to behave as real Josephson elements make them useful devices, with numerous applications. Powerful techniques, such as focused ion-beam and electron-beam lithography, were successfully used and are well understood in planar weak link structure fabrication. In this dissertation the results of an experimental study on planar weak link structures are presented. For the first time these structures have been successfully fabricated using AFM nanolithography on hard high-temperature superconducting YBCO tracks, where diamond coated silicon tips were used as a ploughing tool. Superconducting YBCO thin films were deposited on different substrates, using inverted cylindrical magnetron sputtering. The films were used to fabricate micro-bridges, variable thickness bridges and nano-bridges, by using conventional photolithography, argon ion-beam milling and AFM nanolithography. The measured I-V characteristics of the fabricated micro-bridges (width down to 1.9 µm), variable thickness bridges (thickness down to 15 nm) and nano-bridge (width down to 490 nm) showed well defined DC and AC Josephson effect characteristics. For better understanding of the behaviour of these types of weak links, critical current versus temperature measurements, and magnetic field modulation of the critical current measurements, were also performed, with the results and discussions given inside the chapters. The major challenges that were experienced in the laboratory during the fabrication processes and the operation of the fabricated devices are also discussed, with the solutions given where appropriate. / AFRIKAANSE OPSOMMING: Swak-skakel vlakstrukture, soos mikrobr.ue, br.ue met veranderlike dikte en nanobr.ue, het nog altyd baie aandag getrek. Hul het die potensiaal om soos werklike Josephson-elemente te kan funksioneer en is, as gevolg hiervan, nuttige toestelle met veelvuldige toepassings. Kragtige tegnieke, soos gefokuste ioonstraal- en elektronstraal litografie, is suksesvol gebruik en word goed verstaan in die vervaardiging van swak-skakel vlakstrukture. In hierdie proefskrif word die resultate van ¡¦n eksperimentele studie van swak-skakel vlakstrukture voorgel.e. Vir die eerste keer is hierdie strukture suksesvol vervaardig, deur gebruik te maak AFMnanolitografie op harde, ho¡Le-temperatuur supergeleier YBCO (Yttrium Barium Koperoksied) spore, waar diamantbedekte silikonpunte gebruik is as ploeginstrument. ¡¦n Dun lagie van supergeleidende YBCO is op verskillende substrate gedeponeer, deur gebruik te maak van omgekeerde silindriese magnetron verstuiwing. Die dun lagies is gebruik in die vervaardiging van mikrobr.ue, br.ue met veranderlike dikte en nanobr.ue, deur die gebruik van gewone fotolitografie, argon-ioonstraal frees en AFM nanolitografie. Die gemete I-V eienskappe van die vervaardigde mikrobr.ue (met breedte so laag as 1.9 µm), veranderlike-dikte br.ue (dikte tot 15 nm) en nanobr.ue (breedte so min as 490 nm) toon goed gedefinieerde GS en WS eienskappe van die Josephson-effek. Ten einde die gedrag van hierdie tipes swak-skakels beter te kan verstaan, is metings gedoen van kritieke stroom teenoor temperatuur, asook magnetiese veld modulasie van die kritieke stroom. Hierdie resultate en besprekings daarvan word binne die toepaslike hoofstukke aangebied. Die grootste uitdagings wat in die laboratorium, sowel as met die toetsing van die vervaardigde toestelle ondervind is, word ook bespreek. Waar moontlik, word toepaslike oplossings voorgestel. Josephson junctions AFM nanolithography Dissertations -- Electronic engineering Theses -- Electronic engineering Nanotechnology Atomic force microscope Superconducting YBCO thin films
68	Estudo de portas lógicas quânticas de dois qubits definidas em um subespaço livre de decoerência para um sistema de quatro qubits acoplado ao resto do universo por um agente degenerado / A study of two-qubit quantum logic gates defined in a decoherence free subspaces for a four-qubit system coupled to the rest of the universe via a degenerate agent Mendonça, Paulo Eduardo Marques Furtado de 23 March 2004 (has links) Nesta dissertação estudamos, no âmbito teórico, algumas propostas recentes de processamento de informação quântica passiva, isto é, descartando protocolos de correção de erros. Recorrendo à criação de subespaços livres de decoerência através de um sistema físico de quatro spins acoplados ao resto do universo por um agente degenerado, mostramos ser possível construir um conjunto universal de portas lógicas (C-NOT, T e Hadamard) neste mesmo subespaço, alcançando, por conseguinte, a realização de qualquer operação computacional, insensivelmente ao resto do universo. Partimos de um hamiltoniano geral com interações individuais de cada spin com campos externos, além de acoplamentos controlados entre pares de spins. Experimentalmente, hamiltonianos deste tipo são comuns no contexto de junções Josephson, motivo pelo qual tratamos esta implementação em um capítulo especial. Introduzindo perturbativamente ao hamiltoniano operadores espúrios ao subespaço livre de decoerência, incluímos sensibilidade do sistema frente ao ambiente, criando a possibilidade da incursão de erros através de mecanismos de dissipação. Tais mecanismos foram investigados em termos da intensidade do parâmetro de acoplamento entre o sistema e o ambiente, revelando uma clara evidência teórica do Efeito Zenão Quântico, através da excelente concordância entre resultados de operações realizadas em subespaços livres de decoerência e operações realizadas em sistemas fortemente acoplados ao resto do universo. Neste sentido, selecionamos a fidelidade como medida de distância entre um estado em evolução a partir de um certo estado inicial do subespaço livre de decoerência (e submetido a dissipação), e um estado em evolução regida pela mesma operação quântica e a partir das mesmas condições iniciais no caso ideal, livre de decoerência. Essa abordagem explícita permitiu-nos obter a razão necessária entre os parâmetros associados a perturbação (que remove o estado do subespaço original) e acoplamento (entendido como a freqüência entre as medidas promovidas pelo resto do universo), para alcançar a eficiência desejada na realização de uma certa porta lógica. Tecnicamente, o trabalho envolveu vários resultados matemáticos novos e operacionalmente úteis, levando a simplificações importantes durante os cálculos envolvidos. / In this dissertation we studied theoretical aspects of some recent proposals of passive quantum information processing, that is, discarding error correction protocols. Falling back upon the creation of decoherence-free subspaces through a physical system of four spins coupled to the rest of the universe by a degenerate agent, we showed to be possible to build a universal set of logical quantum gates (C-NOT, T and Hadamard) in this same subspace, reaching, consequently, the accomplishment of any computational operation, callously to the rest of the universe. We started from a general Hamiltonian with individual interactions of each spin with external fields, besides controlled couplings between spin pairs. Experimentally, Hamiltonians like this are common in the context of Josephson junctions and, therefore, we treated this implementation in a special chapter. Perturbatively introducing spurious operators to the hamiltonian in the decoherence-free subspace, we included sensibility of the system to the environment, creating the possibility of the incursion of errors through dissipation mechanisms. Such mechanisms were investigated in terms of the intensity of the coupling parameter between the system and the environment, revealing an obvious theoretical evidence of the Quantum Zeno Effect, through the excellent agreement between the results of operations accomplished in decoherence-free subspace and operations accomplished in systems strongly coupled to the rest of the universe. In this sense, we selected the fidelity as the distance measure between a state in evolution starting from a certain initial state of the decoherence-free subspace (and submitted to the dissipation), and a state in evolution governed by the same quantum operation and starting from the same initial conditions in the ideal decoherence-free case. This explicit approach allowed us to obtain the necessary quotient between the associated disturbance parameter (that removes the state from the original subspace) and coupling parameter (understood as the frequency between the measurements promoted by the rest of the universe), to reach the efficiency desired in the accomplishment of a logic gate. Technically, the work involved several new operationally useful mathematical results, leading to important simplifications during the involved calculations. Computação quântica Decoerência Decoherence Decoherence free subspaces Efeito zenão quântico Espaços livres de decoerência Josephson junctions Junções Josephson Quantum computing Quantum zeno effect
69	Nelinearna dinamika u okviru Frenkel-Kontorova modela pod dejstvom spoljašnjih periodičnih sila / Nonlinear dynamics of ac + dcdriven Frenkel-Kontorova model Mali Petar 27 September 2015 (has links) <p>Ispitivan je generalisani Frenkel-Kontorova model pod dejstvom spolja&scaron;njih periodičnih sila, i njihov uticaj na &Scaron;apiro stepenike. Deformacija substratnog potencijala prouzrokuje pojavu velikih polucelih i drugih subharmonijskih stepenika u sistemu. Rezultati dobijeni u radu su od značaja u talasima i spinovima gustine naboja kao i u Džozefsonovim spojevima.</p> / <p>Properties of the Shapiro steps in dierent<br />commensurate structures of the ac + dc driven<br />Frenkel-Kontorova model with dierent generalized<br />substrate potential have been examined.<br />Deviation from the sinusoidal potential produces<br />appearance of large subharmonic steps.<br />Presented results could be of great importance<br />for thestudies of all real systems closely related<br />to the dissipative dynamics of the FK model<br />such as studies of the charge- or spin-density wave<br />systems and the systems of Josephson-junction arrays.</p>
70	High-frequency phenomena in small Bi2Sr2CaCu2O8+x intrinsic Josephson junctions Motzkau, Holger January 2015 (has links) In this thesis, the tunneling between individual atomic layers in structures of Bi2Sr2CaCu2O8+x based high-temperature superconductors are experimentally studied employing the intrinsic Josephson effect. A special attention is paid to the fabrication of small mesa structures using micro and nanofabrication techniques. In the first part of the thesis, the periodic Fraunhofer-like modulation of the critical current of the junctions as a function of in-plane magnetic field is investigated. A transition from a modulation with a half flux quantum to a flux quantum periodicity is demonstrated with increasing field and decreasing junction length. It is interpreted in terms of the transformation of the static fluxon lattice of stacked, strongly coupled intrinsic Josephson junctions and compared with theoretical predictions. A fluxon phase diagram is constructed.Numerical simulations have been carried out to complement the experimental data. In the second part of the thesis, different resonant phenomena are studied in the dynamic flux-flow state at high magnetic fields, including Eck-resonances and Fiske steps. Different resonant modes and their velocities, including superluminal modes, are identified. In the third part, different experiments attempting to detect radiation from small mesa structures using different setups based on hot-electron bolometer mixers and calorimeters are described. No distinct radiation with emission powers higher than about 500pW could be detected. Furthermore, the interaction with external GHz-radiation is studied. Resonances attributed to an induced flux-flow are observed, and the reflectivity of the sample can be tuned by switching mesas between the superconducting and quasiparticle state. In the last part, the resistive switching of mesas at high bias is studied. It is attributed to a persistent electrical doping of the crystal. Superconducting properties such as the critical current and temperature and the tunneling spectra are analyzed at different doping states of the same sample. The dynamics of the doping is studied, and attributed to two mechanisms; a charge-transfer effect and oxygen reordering high-temperature superconductivity Bi-2212 cuprates intrinsic Josephson junctions intrinsic tunneling fluxons flux-flow oscillator THz-emission cavity resonances polaritons electrical doping micro/nano-fabrication

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