Advances in Superconductivity

  • B. Deaver
  • John Ruvalds

Part of the NATO Advanced Science Institutes Series book series

Table of contents

  1. Front Matter
    Pages i-viii
  2. John Clarke
    Pages 13-50
  3. Hans H. Zappe
    Pages 51-127
  4. D. Jérome
    Pages 129-147
  5. N. F. Pedersen
    Pages 149-181
  6. Antonio Barone, Gianfranco Paternò
    Pages 183-195
  7. Antonio Barone, Ruggero Vaglio
    Pages 207-224
  8. R. L. Greene, H. Gutfreund, M. Weger
    Pages 225-240
  9. M. Brian Maple
    Pages 279-346
  10. T. H. Geballe
    Pages 387-431
  11. J. Ruvalds
    Pages 475-514
  12. Back Matter
    Pages 515-529

About this book


The Advanced Study Institute on "Advances in Superconductivity" was held at the Ettore Majorana Centre for Scientific Culture in Erice, Sicily, during July 3 to July 15, 1982. This Institute was the third course of the International School of Low Tempera­ ture Physics, which was established at the Centre in 1977 with the guidance and inspiration of T. Regge and A. Zichichi. The 1982 Course was centered on a topic which brought together fundamental basic research and the most recent promising technological applications. Accordingly, the participants represented a wide spectrum of industrial and government laboratories, as well as universities from various countries. The program of topics and speakers was developed with the advice of the Organizing Committee, composed of H. Frohlich, T. Regge, B. Stritzker, and L. Testardi. This Institute emphasized recent developments in the science and technology of superconductivity. A historical perspective was provided by H. Frohlich, whose lectures recall the earliest discoveries and theoretical attempts to understand superconductivity. Ironically, his early suggestion of the electron-phonon coupling as a key to superconductivity was met with initial widespread skepticism. Later, the development of field theory methods for solid state physics problems, and the evolution of the BCS theory has led to a seemingly unanimous concensus regarding the e1ectron­ phonon mechanism as the predominant source of superconductivity in known materials. Experimental studies of superconductivity exemplify the strong interplay of science and technology in many ways.


Experiment SQUID magnetism material physics

Editors and affiliations

  • B. Deaver
    • 1
  • John Ruvalds
    • 1
  1. 1.University of VirginiaCharlottesvilleUSA

Bibliographic information