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Electromagnetic Absorption in the Copper Oxide Superconductors

  • Book
  • © 2002

Overview

Authors:
  1. Frank J. Owens

    1. Army Armament Research Engineering and Development Center, Picatinny, USA
      Hunter College of the City, University of New York, New York, USA

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  2. Charles P. Poole

    1. Institute of Superconductivity, University of South Carolina, Columbia, USA

    View author publications

    You can also search for this author in PubMed   Google Scholar

Part of the book series: Selected Topics in Superconductivity (STIS)

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Table of contents (9 chapters)

  1. Front Matter

    Pages i-xii
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  2. The Superconducting State

    Pages 1-29

  3. The New Superconductors

    Pages 31-54

  4. Experimental Methods and Complementary Techniques

    Pages 55-73

  5. Electromagnetic Absorption in the Normal State

    Pages 75-94

  6. Zero Magnetic Field Microwave Absorption

    Pages 95-112

  7. Low Magnetic Field-Induced Microwave Absorption

    Pages 113-138

  8. Electromagnetic Absorption Due to Vortex Motion

    Pages 139-157

  9. Infrared and Optical Absorption

    Pages 159-174

  10. Applications

    Pages 175-192

  11. Back Matter

    Pages 193-199
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Keywords

About this book

In 1987 a major breakthrough occurred in materials science. A new family of materials was discovered that became superconducting above the temperature at which nitrogen gas liquifies, namely, 77 K or –196°C. Within months of the discovery, a wide variety of experimental techniques were brought to bear in order to measure the properties of these materials and to gain an understanding of why they superconduct at such high temperatures. Among the techniques used were electromagnetic absorption in both the normal and the superconducting states. The measurements enabled the determination of a wide variety of properties, and in some instances led to the observation of new effects not seen by other measu- ments, such as the existence of weak-link microwave absorption at low dc magnetic fields. The number of different properties and the degree of detail that can be obtained from magnetic field- and temperature-dependent studies of electromagnetic abso- tion are not widely appreciated. For example, these measurements can provide information on the band gap, critical fields, the H–T irreversibility line, the amount of trapped flux, and even information about the symmetry of the wave function of the Cooper pairs. It is possible to use low dc magnetic field-induced absorption of microwaves with derivative detection to verify the presence of superconductivity in a matter of minutes, and the measurements are often more straightforward than others. For example, they do not require the physical contact with the sample that is necessary when using four-probe resistivity to detect superconductivity.

Authors and Affiliations

  • Army Armament Research Engineering and Development Center, Picatinny, USA

    Frank J. Owens

  • Hunter College of the City, University of New York, New York, USA

    Frank J. Owens

  • Institute of Superconductivity, University of South Carolina, Columbia, USA

    Charles P. Poole

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