Advertisement

Table of contents

  1. Front Matter
  2. R. Flükiger, T. Wolf
    Pages 1-5
  3. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 1-2
  4. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 2-5
  5. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 5-21
  6. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 21-36
  7. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 36-37
  8. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 37-54
  9. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 54-65
  10. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 65-73
  11. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 73-77
  12. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 77-83
  13. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 83-84
  14. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 85-86
  15. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 86-100
  16. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 101-102
  17. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 102-105
  18. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 106-123
  19. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 123-123
  20. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 124-129
  21. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 129-140
  22. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 140-141
  23. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 141-142
  24. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 142-142
  25. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 143-150
  26. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 151-158
  27. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 158-158
  28. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 159-176
  29. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 176-177
  30. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 177-183
  31. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 183-194
  32. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 195-206
  33. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 206-211
  34. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 211-214
  35. R. Flükiger, S. Y. Hariharan, R. Küntzler, H. L. Luo, F. Weiss, T. Wolf et al.
    Pages 214-214
  36. R. Flükiger, T. Wolf
    Pages 215-228
  37. R. Flükiger, T. Wolf
    Pages 229-242
  38. R. Flükiger, T. Wolf
    Pages 243-256
  39. R. Flükiger, T. Wolf
    Pages 257-270
  40. R. Flükiger, T. Wolf
    Pages 271-283

About this book

Introduction

The phenomenon of superconductivity has gained a new interest since the recent discovery of materials with transition temperatures above 77K. The research on the new substances has increasingly contributed to the progress of materials science. In volume III/21 the reported data on superconducting materials, from the discovery of this phenomenon to the present days of intensive research on high-Tc superconductors, are compiled. The data comprise various modifications of a material, e.g. bulk state, thin films, implanted or filamentary wires. Where available, data obtained under high presure or after high energy particle irradiation are also tabulated. A particular effort was made topresent not only the superconducting data for a given substance, but also the complete characterization of the analyzed samples. This characterizationcomprises the metallurgical and the crystallographical analysis as well as the analysis of other physical properties. The goal of the volume is to establish a complete and reliable compilation of critically reviewed experimental data, excluding purely theoretical works. The large amount of publications, more than 40.000 since 1913, requires a subdivision of the data in several subvolumes, the second of which is presented herewith. No such complete collection exists elsewhere, so that these tables should respond to a real need of both physicists and material scientists.

Keywords

Superconductor crystal crystallography energy materials science metals radiation superconductivity thin films

Bibliographic information

  • DOI https://doi.org/10.1007/b35077
  • Copyright Information Springer-Verlag Berlin Heidelberg 1993
  • Publisher Name Springer, Berlin, Heidelberg
  • eBook Packages Physics and Astronomy
  • Print ISBN 978-3-540-55522-3
  • Online ISBN 978-3-540-47196-7
  • Series Print ISSN 1615-1925
  • Series Online ISSN 1616-9549
  • Buy this book on publisher's site
Industry Sectors
Chemical Manufacturing
Electronics
Oil, Gas & Geosciences