Superconductivity and Its ApplicationsHoi S. Kwok, David T. Shaw, Michael J. Naughton Annotation While the September 1992 meeting's scope embraced the full range of high temperature superconductivity research, the sessions included extensive explorations of application-oriented work, in particular, conductor development, magnetic and power applications, and magnetic refrigeration. Seventy contributions are grouped in sections on thin films and devices, crystalline anisotropy and flux pinning, structure and physical properties, and the three applications areas mentioned above. Annotation copyright by Book News, Inc., Portland, OR. |
Contents
Superconductivity and Future Technologies | 6 |
The Making of HighT Layered SuperconductorsFrom Atomic Layer | 12 |
Structure and Properties of Grain Boundaries in HighT Superconductors | 37 |
Copyright | |
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1992 American Institute A/cm² alignment angle anisotropic annealing Appl applications atomic behavior bolometers BSCCO c-axis coherence length coil conductor cooling critical current density cryogenic cuprates curve cycle decrease defects devices effect electrical electron energy enhancement epitaxial experimental Figure film growth films deposited flux pinning frequency grain boundary heat high temperature superconductors high-Te HTSC IEEE increase Institute of Physics ions irradiation laser lattice Lett limit liquid magnetic field magnetic refrigerator materials measured melt-texturing melting metal microstructure multilayer normal observed obtained operating orientation oxide oxygen parameters particles pattern peak phase Phys plane pressure quenched region resistance room temperature sample SCFCL shown in Fig shows single crystal sintered sputtering SrTiO3 stoichiometry structure substrate superconducting properties surface tapes temperature dependence Tesla texturing thermal thickness thin films TiO2 torque transition tunneling values voltage vortex X-ray diffraction YBCO films YBCO layers