High Temperature Superconductivity, Proceedings of LT-19 Satellite Conference, Cambridge, 13-15 August 1990J. Evetts High Temperature Superconductivity contains the most up-to-date research in this fast-moving subject. There are contributions from important groups around the world working in this field. The approach is interdisciplinary, ensuring that this book will be of use to a large number of workers in different areas of research. It contains important new contributions from leading workers, including V L Ginzburg, S Amelinckx and N Mott. 135 contributions are included on a wide range of topics, including the following: Synthesis, structure and properties of materials, Processing of thin films and ceramics, Flux movement and critical currents, Applications, High Temperature Superconductivity presents the most recent results in this exciting field, and, because of its interdisciplinary nature, will be of great interest to all workers in low temperature physics, superconductivity, materials science and condensed matter physics. This volume comprises the refereed Proceedings of the LT-19 Satellite Conference, held in Cambridge in August 1990. It contains all the invited papers, and also the oral and poster presentations. |
Contents
S19 The study of highT superconducting materials by electron microscopy and electron diffraction | S-19 |
S35 Anomalous magnetic behaviours of the cuprate superconductorsMeissner effect H and | S-35 |
S51 Research advances and needs related to HTSC electronics | S-51 |
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1991 IOP Publishing Abstract anisotropy annealing Appl atoms behaviour BSCCO c-axis ceramic coherence length composition compounds concentration copper critical current density CuO2 cuprate curve decrease defects deposition diamagnetic diffraction doping effect electron energy epitaxial experimental field dependence Figure flux creep flux pinning frequency function grain boundaries high Tc high temperature high temperature superconductors high-T hysteresis increase ions IOP Publishing Ltd irradiation Josephson Josephson junctions lattice layer Lett low temperature magnetic field material measurements microwave modulation normal observed obtained oxygen content parameters peak phase phonon Phys Physica pinning force plane polycrystalline powder pressure region resistivity sample shown in Fig shows single crystal sintered specific heat spectra sputtering SQUID SrTiO3 stoichiometry structure substrate Supercond superconducting transition surface susceptibility technique Technol temperature dependence thermal thermopower thickness thin films transition temperature tunnel University values voltage weak links YBaCuO YBCO YBCO films zero