The field of high-temperature superconductivity has encouraged an inter disciplinary approach to research. It has required significant cooperation and collaboration among researchers, each of whom has brought to it a rich variety of experience from many other fields. Recently, great improvements have been made in the quality of research. The subject has matured and been launched into the next stage through the resonance between science and technology. The current progress of materials processing and engineering in this field is analogous to that previously seen in the development of semiconductors. These include the appearance of materials taking the place of YBa2Cu307 owing to their improved properties (higher critical temperatures and stronger flux pin ning) in which rare earth ions with large radii (La, Nd, Sm) substitute for Y; the development of technology enabling growth control on the nanometer scale; and precise and reproducible measurements that can be used as rigorous tests of theoretical models, which in turn are expected to lead to the develop ment of new devices. For further progress in high-T research, academics and c technologists must pool their knowledge and experience. I hope that this volume will promote that goal by providing the reader with the latest results of high-temperature superconductor research and will stimulate further discussion and collaboration.We hope it will help guide design of the sandwich type Josephson tunneling junctions such as high Te aquot;SISaquot; ... Kawabata C, Shenoy S.R and Bishop A.R ( 1994) Proc.of ETL Workshop on High Temperatures Superconductors Bulletin of ... 1 (Left) Magnetization of powdered samples of La2-x-yFyBa, CuO4 (R=Gd, . 236 .
|Title||:||Advances in Superconductivity VII|
|Author||:||Kaoru Yamafuji, Tadataka Morishita|
|Publisher||:||Springer Science & Business Media - 2012-12-06|