Perspectives on Superconductivity Research
Seiten
2007
Nova Science Publishers Inc (Verlag)
978-1-59454-523-8 (ISBN)
Nova Science Publishers Inc (Verlag)
978-1-59454-523-8 (ISBN)
Superconductivity is the ability of certain materials to conduct electrical current with no resistance and extremely low losses. High temperature superconductors, such as La2-xSrxCuOx (Tc=40K) and YBa2Cu3O7-x (Tc=90K), were discovered in 1987 and have been actively studied since. This volume brings together research in the field.
Superconductivity is the ability of certain materials to conduct electrical current with no resistance and extremely low losses. High temperature superconductors, such as La2-xSrxCuOx (Tc=40K) and YBa2Cu3O7-x (Tc=90K), were discovered in 1987 and have been actively studied since. In spite of an intense, world-wide, research effort during this time, a complete understanding of the copper oxide (cuprate) materials is still lacking. Many fundamental questions are unanswered, particularly the mechanism by which high-Tc superconductivity occurs. More broadly, the cuprates are in a class of solids with strong electron-electron interactions. An understanding of such "strongly correlated" solids is perhaps the major unsolved problem of condensed matter physics with over ten thousand researchers working on this topic. High-Tc superconductors also have significant potential for applications in technologies ranging from electric power generation and transmission to digital electronics. This ability to carry large amounts of current can be applied to electric power devices such as motors and generators, and to electricity transmission in power lines. For example, superconductors can carry as much as 100 times the amount of electricity of ordinary copper or aluminium wires of the same size. Many universities, research institutes and companies are working to develop high-Tc superconductivity applications and considerable progress has been made. This new volume brings together new leading-edge research in the field.
Superconductivity is the ability of certain materials to conduct electrical current with no resistance and extremely low losses. High temperature superconductors, such as La2-xSrxCuOx (Tc=40K) and YBa2Cu3O7-x (Tc=90K), were discovered in 1987 and have been actively studied since. In spite of an intense, world-wide, research effort during this time, a complete understanding of the copper oxide (cuprate) materials is still lacking. Many fundamental questions are unanswered, particularly the mechanism by which high-Tc superconductivity occurs. More broadly, the cuprates are in a class of solids with strong electron-electron interactions. An understanding of such "strongly correlated" solids is perhaps the major unsolved problem of condensed matter physics with over ten thousand researchers working on this topic. High-Tc superconductors also have significant potential for applications in technologies ranging from electric power generation and transmission to digital electronics. This ability to carry large amounts of current can be applied to electric power devices such as motors and generators, and to electricity transmission in power lines. For example, superconductors can carry as much as 100 times the amount of electricity of ordinary copper or aluminium wires of the same size. Many universities, research institutes and companies are working to develop high-Tc superconductivity applications and considerable progress has been made. This new volume brings together new leading-edge research in the field.
Bi2Sr2CaCu2O8+ Bicrystal c-Axis Twist Josephonson Junctions: The Superior Phase-Sensitive Test of Order Parameter Symmetry; Synthesis Structure, Superconducting and Magnetic Properties of RuSr2 LnCu2 O8-a and RuSr2O10-a A Structural Aspects; Optical Properties of Unconventional superconductors; High Tc Superconducting Fibres Processed by Conventional and electrical Assisted Laser Floating Zone; Spin Glass Behaviour in the Ru-1222 and Ru-1212 Ruthenocuprate Families: A Comparative Study; The Critical Behaviour of Magnetic Systems Described by Landau-Ginzburg-Wilson Field Theories; Role of the Vortex Solid Topology in a First-Order Liquid-Solid Phase; Growth Kinetics of Yb: YAI3(BO3)4 and NdAI3(BO3)4 Epitaxial Layers; Index.
Erscheint lt. Verlag | 1.5.2007 |
---|---|
Verlagsort | New York |
Sprache | englisch |
Maße | 260 x 180 mm |
Gewicht | 510 g |
Themenwelt | Naturwissenschaften ► Physik / Astronomie ► Elektrodynamik |
Technik ► Elektrotechnik / Energietechnik | |
ISBN-10 | 1-59454-523-5 / 1594545235 |
ISBN-13 | 978-1-59454-523-8 / 9781594545238 |
Zustand | Neuware |
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