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Superconducting Devices presents the theory, qualification, and fabrication of superconducting device elements and integrated circuitry. This book discusses the various uses of superconducting devices in many areas where their sensitivity, speed, or other characteristics stemming from the unique nature of superconductivity make them the device of choice. Organized into 10 chapters, this book begins with an overview of superconducting quantum interference devices (SQUIDs), which is the main achievement of superconductor electronics. This text then examines the status of dc and rf SQUIDs. Other chapters consider the progress in the fabrication technology for high-quality junctions and it integration technology, which are developed mainly for digital applications. This book discusses as well the increasing need for compact submillimeter sources for use in such applications as satellite communications and receivers for astronomical observation. The final chapter deals with the thin film tunneling experiments. This book is a valuable resource for physicists, chemists, materials scientists, and electrical engineers.
Principles and applications of SQUIDs serves as a textbook and a multi-author collection of critical reviews. Providing both basic aspects and recent progress in SQUIDs technology, it offers a realistic and stimulating picture of the state of the art. It can also contribute to a further development of the field for commercial applications.
This conference is the second on the Science and Technology of Thin Film Superconductors. It proved to be an excellent forum for these specialists in thin film superconductivity. The conference, held April 30-May 4, 1990, in Denver, Colorado, hosted 170 researchers from 17 countries. The response to the conference again emphasized the need for a meeting devoted to the science and technology of thin film superconductors. The breadth of artic1es and advances made in this technology since the first conference in November 1988, reflect on the maturity of the topic. These proceedings contain artic1es on deposition methods by sputtering, e1ectron beam evaporation, resistive evaporation, laser ablation, chemical vapor deposition and electrodeposition, and on other studies related to substrates, thermodynamics of formation, grain boundaries and weak links, characterization, and some practical applications. The program committee was pleased with the quality of the publications and contributed articles. This conference was highlighted by a fuU day dedicated to presentations from the federallaboratories, discussing a wide range of topics on the fabrication, characterization, and theory of high-temperature superconductor thin films. Other highlights at the conference dealt with (1) critical parameters or problems in measuring critical current density and other important parameters, and (2) problems of scale-up, reproducibility, and amenability to device fabrication. It became evident from the presentations that three issues were developing into critical issues for the ultimate practical application of high temperature superconductor thin films.
The Conference on the Science and Technology of Thin Film Superconductors was conceived in the early part of 1988 as a forum for the specialist in thin film superconductivity. The conference was held on November 14-18, 1988, in Co lorado Springs, Co lorado. Al though many excellent superconductivity conferences had been convened in the wake of the 1986-1987 discoveries in high temperature superconductivity, thin film topics were often dispersed among the sessions of a more general conference agenda. The response to the Conference on the Science and Technology of Thin Film Superconductors confirmed the need for an extended conference devoted to thin film superconductors. These proceedings are a major contribution to the technnology of thin film superconductivity because of the breadth and quality of the articles provided by leaders in the field. The proceedings are divided into articles on laser deposition, sputtering, evaporation, metal organic chemical vapor deposition, thick film, substrate studies, characterization, patterning and applications, and general properties. Most of the articles discuss scientific issues for high temperature thin film superconductors, although the conference was to be a forum for technology and scientific questions for both low and high temperature superconductivity. For the first day of the 5 day conference, Lawrence Berkeley Laboratory had organized an excellent set of short courses in superconduc t ing thin film devices.
The highly industrialized world we live in depends for its survival and further growth on advanced electronic technologies which place a premium on rapidly improved performance versus size, weight, and cost. Small computers, high-definition TV, digital camcorders, flat-panel displays, and robotic systems are but a few examples of miniatured device technologies which are of critical importance to emerging societal, industrial, defense, and space needs. All of these technologies depend sensitively on the availability of miniature thin film components in array and/or integrated formats. This book provides that first multi-topical coverage of the semiconductor, optical, superconductor, magnetic, and ferroelectric devices and technologies responding to these needs. This book comprises five topical volumes edited by world authorities in their fields, id est semiconductor junction devices, semiconductor optics, superconducting film devices, magnetic film devices, and ferroelectric film devices. Well-known experts were invited to cover recent progress in aspects ranging from deposition and fabrication to device modeling, measurements, and new cutting-edge design approached for improved performance. This multitopic approach effectively demonstrates the broad-based and pervasive character of thin film techniques that impact and control a vast array of device functions that are critical to developments in computer technology, communications, television, defense and space systems, and industrial and consumer products. Readers are provided with both broad critical overviews and research level analysis and technical details. Key Features * A comprehensive discussion of the most promising and completely developed of thin film devices which impact the entire field of high-tech components and systems for commercial, defense and space applications * Edited and written by internationally known, authoritative experts and innovators, familiar with all aspects of research and development in their fields and with current and potential applications * Presents the reader with informed assessments of all candidate solid state film devices now being optimized for advanced application, e.g., in flat panel displays, solar energy conversion, high-speed and power components, radar technology, infrared imaging , advanced computers, laser sources, and numerous other arenas * Provides a well-balanced coverage of materials growth and optimization, thin-film device modelling , device fabrication and characterization, and future development directions;These inputs are critically important to both educators, designers, device technologists and manufacturers, and to system engineers * Furnishes useful insights on processing compatibility, materials and film device stability, interface engineering, cryogenic requirements and operation, lithography and micro-machining, and integrability for sub-systems * Provides a broad-based view of alternative and/or complimentary film device technologies in a single, well-referenced source * Ensures complete and detailed overview of solid-state device topics, comprehensive bibliographical information, and expert guidance in advanced and sophisticated areas of device technology and potental applications * Furnishes invaluable insights on competitive state-of-the-art thin film semiconductor, photonics, superconductor, magnetic and ferroelectric technologies, processing and compatibility,device options, performance potential and prospects for essentially all solid-state film components * An essential information source and primer for educators , researchers, engineers and technology leaders supplying a wealth of background theoretical and experimental details, as well as guidance for further advanced research and development , thesis topics and high-tech product design * Identifies key processing, fabrication, design, integration, compatibility problems and solutions involved in successful development of high-performance and stable device and sub-system architectures.
This work provides a review of recent advances in all aspects of superconducting electronics, both for the traditional (4 K) liquid helium based (LTS) materials and the more recent ceramic (HTS) materials that can operate at higher temperatures in the range of liquid nitrogen (77 K).
Since the discovery of high-temperature superconductivity considerable progress has been made in research and development of superconductive electronic devices. This fact is reflected by the large variety of contributions to the 4th International Conference on Superconducting and Quantum Effect Devices and their Applications - SQUID'91. This comprehensive proceedings volume covers Josephson junctions, SQUIDs, radiation detectors, flux-flow transitors.. The main applications are contained in the chapters on biomagnetic instrumentation, metrologym and rf-applications. The purpose of this volume is to provide an up-to-date reference book on thestatus of this rapidly changing and promising field of electronic device research on the basis of low- and high-temperature materials.