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Monday, July 27, 2020 | History

1 edition of Physics of High-Temperature Superconductors found in the catalog.

Physics of High-Temperature Superconductors

Proceedings of the Toshiba International School of Superconductivity (ITS2), Kyoto, Japan, July 15-20, 1991

by Sadamichi Maekawa

  • 347 Want to read
  • 27 Currently reading

Published by Springer Berlin Heidelberg in Berlin, Heidelberg .
Written in English

    Subjects:
  • Inorganic Chemistry,
  • Physics,
  • Thermodynamics

  • About the Edition

    Advances through carefully conducted quantitative work on well designed, high quality materials characterize the present state of high-temperature superconductivity research. The contributions to this volume present a theoretical and experimental overview of electronic structure and physical properties, including anisotropic features, of high-temperative materials, with a focus on cuprates. In order to enhance the understanding of the mechanisms of superconductivity at high temperatures, this volume is divided into theoretical and experimental parts. The contributions to the two parts correspond to each other, giving readers involved in either area of research activity a reference to findingsof the other. On the other hand, this book gives young physicists high-level information on the present state of research, enhanced by tutorial contributions of leading physicists in the field.

    Edition Notes

    Statementedited by Sadamichi Maekawa, Masatoshi Sato
    SeriesSpringer Series in Solid-State Sciences -- 106, Springer series in solid-state sciences -- 106.
    ContributionsSato, Masatoshi
    Classifications
    LC ClassificationsQC611.9-611.98
    The Physical Object
    Format[electronic resource] :
    Pagination1 online resource (x, 437 pages 211 illustrations).
    Number of Pages437
    ID Numbers
    Open LibraryOL27080966M
    ISBN 10364284720X, 3642847188
    ISBN 109783642847202, 9783642847189
    OCLC/WorldCa851387773

    A mysterious superconductor’s wave could reveal the physics behind the materials High-temperature superconductors exhibit a phase of matter called a ‘pair-density wave’. The search is on for even higher TcTc size 12{T rSub { size 8{c} } } {} superconductors, many of complex and exotic copper oxide ceramics, sometimes including strontium, mercury.

    In this book Professor Vidali describes in plain, nontechnical terms how conventional superconductivity was discovered 80 years ago, why it took nearly fifty years to understand it, and the physical explanation of why it exists. He chronicles the developments that led up to the discovery of high temperature superconducting materials, and describes the excitement generated by announcements of. High-temperature superconductors (abbreviated high-T c or HTS) are operatively defined as materials that behave as superconductors at temperatures above nearly K (− °C).. This is in fact the lowest temperature reachable by liquid nitrogen, one of the simplest coolants in cryogenics. All superconducting materials known at ordinary pressures currently work far below ambient.

      Thirty years after that benchmark achievement, a new mystery confronted condensed matter physicists: the discovery in of copper-oxide or high-temperature commonly known as. Philippe Monthoux, Alexander Balatsky, and David Pines, “Weak-Coupling Theory of High-Temperature Superconductivity in the Antiferromagnetically Correlated Copper Oxides,” Physical Review B 46, no. 22 (), doi/PhysRevB ↩ Published on Decem in Volume 5, Issue 1. More From This Author.


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Physics of High-Temperature Superconductors by Sadamichi Maekawa Download PDF EPUB FB2

In order to enhance the understanding of the mechanisms of superconductivity at high temperatures, this volume is divided into theoretical and experimental parts.

The contributions to the two parts correspond to each other, giving readers involved in either area of research activity a reference to findingsof the other. Physics of High-Temperature Superconductors Book Subtitle Proceedings of the Toshiba International School of Superconductivity (ITS2), Kyoto, Japan, July 15–20, Physics of High-Tc Superconductors highlights the important experiments that provide insights on the concept of high-temperature superconductors.

Composed of 11 chapters, this book covers the theories and materials of these superconductors. Since the publication of Physical Properties of High Temperature Superconductors I, research in the field of high temperature superconductivity has continued at a rapid pace.

Volume II will contain chapters on some of the major areas of activity which were not covered extensively in Volume I: structure, microstructure, thermodynamics, oxygen Price: $ It provides an overview of materials aspects of high-temperature superconductors, combining introductory aspects, description of new physics, material aspects, and a description of the material properties This title is suitable for researchers in materials science, physics and engineering.

High temperature superconductors have received a great deal of attention in recent years, due to their potential in device and power applications. This book summarises the materials science and physics of all the most important high temperature superconductors as well as discussing material growth, properties and applications.

) and received his Ph.D. in physics from the University of Constance, Germany, This book provides an overview of the known cuprate- and iron-based high-T c superconductors and their physical properties.

In addition, the special case of the graph “High-Temperature Superconductors: Materials, Properties, and Applications”. High-temperature Superconductors. Superconductors are materials with a resistivity of zero.

They are familiar to the general public because of their practical applications and have been mentioned at a number of points in the text.

Because the resistance of a piece of superconductor is zero, there are no heat losses for currents through them; they are used in magnets needing high currents, such as in.

4 Physics of high temperature superconductors. edited a book entitled High-Temperature Superconductivity where a variety of materials including the “Little” organic ones, were discussed as candidates for room temperature superconductivity. Shortly after this in Japan intense research efforts were bundled in a new project focusing on the.

Theory of High Temperature Superconductivity (Fundamental Theories of Physics Book ) Kindle Edition. by S. Fujita (Author), S. Godoy (Author) Format: Kindle : S. Fujita, S. Godoy. More from Other Physics Topics. Research team exactly solves experimental puzzle in high temperature superconductivity.

It systematically reviews the basic physics and recent advances in the field. Leading researchers describe the state-of-the-art in conventional phonon-induced superconductivity, high-Tc superconductivity, and in novel superconductivity, including triplet pairing in the ruthenates.

Physics of High-Temperature Superconductors: Proceedings of the Toshiba International School of Superconductivity (ITS2), Kyoto, Japan, JulyMaekawa Format: Paperback.

Concepts in High Temperature Superconductivity. The purpose of this paper to explore the theory of high temperature superconductivity. The main focus is on the core theoretical issues associated with the mechanism of high temperature superconductivity more generally.

Author(s): E. Carlson, V. Emery, S.A. Kivelson and D. Orgad. High-temperature Superconductors - College Physics - OpenStax. Superconductors are materials with a resistivity of zero. They are familiar to the general public because of their practical applications and have been mentioned at a number of points in the text.

Because the resistance of a piece of superconductor is zero, there are no heat losses for currents through them; they are used in magnets. Since the s, a general theme in the study of high-temperature superconductors has been to test the BCS theory and its predictions against new data.

At the same time, this process has engendered new physics, new materials, and new theoretical frameworks. Remarkable advances have occurred inBrand: Springer-Verlag New York.

Theory of Superconductivity. This note covers the following topics: Topology and Geometry for Physics, The Fundamentals of Density Functional Theory, The Particle World of Condensed Matter, Theory of Superconductivity: A Primer, Microscopic Theory of Superconductivity, The Essentials of DFT and FPLO, High Tc Superconductors: Electronic structure, BCS(Beschreibung des.

Purchase High-Temperature Superconductivity - 1st Edition. Print Book & E-Book. ISBNBook Edition: 1. Reviews. The book provides information of the state of art concerning the latest developments in the field of high-Tc Superconductors.

The book consists of 19 chapters summarizing the recent advances in materials science of high-Tc superconductors, including their physical properties, novel processing routes, and applications.

Abstract This article reviews the effort to understand the physics of high temperature superconductors from the point of view of doping a Mott insulator. The basic electronic structure of the cuprates is reviewed, emphasizing the physics of strong correlation and establishing the model of a doped Mott insulator as a starting point.

About This Book; To the Student; To the Instructor; General Approach; Organization, Level, and Content; Concepts and Calculations; Modern Perspective; Supplements; Features of OpenStax College Physics; Acknowledgements; Senior Contributing Authors; Contributing Authors; Expert Reviewers; Our Partners; Syllabus; Chapter 1 The Nature of Science.

Materials only ‘turn on’ their superconductivity below degrees Celsius. All known superconductors require elaborate cooling methods, which makes them impractical for everyday purposes.

There is a promise of progress in high-temperature superconductors, for example, cuprates—imaginative materials dependent on the copper oxide.Description: This book describes the physics of superconductivity and superfluidity, macroscopic quantum phenomena found in many conductors at low temperatures and in liquid helium 4 and helium 3.

In the first part of the book the author presents the mean field theory of .