High Temperature Superconductivity: Ten Years After Its DiscoveryKrishna Behari Garg, Shyamalendu M. Bose This work is an outcome of invited talks and other contributions presented at the International Workshop at Jaipur in 1996, to review the high temperature superconductivity scene ten years after its discovery. It sums up the progress made, the future directions and the differences in viewpoints that need to be resolved for marching ahead. From theory to microscopic and macroscopic applications, it reviews the entire panorama. It should be of value to both the seasoned researcher and the newly initiated. |
Contents
High Pressure Synthesis and Structural Studies of the Superconducting | 3 |
Emission Mössbauer Effect Studies of Some Outstanding Problems | 10 |
Substitutional Studies in HighT Cuprates | 24 |
Copyright | |
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Common terms and phrases
annealed Appl atomic oxygen BaBiO3 band behaviour BLNO Bose condensate BSCCO c-axis calculated chain coil compounds conductor correlation critical current density Cu-O CuO2 plane cuprates curve d-wave decrease distortion doping doping holes effect electrical EXAFS experimental experiments Fermi energy Fermi level Fermi surface flux function grain boundary high temperature superconductors hole concentration HTSC HTSS in-plane increase interaction ions irradiation Josephson lattice parameters layer Lett magnetic field material measurements metal neutron normal observed octahedra orbitals order parameter oxide oxygen content pairing pellets phase phonons Phys Physica polycrystalline present pressure properties quasiparticle resistivity rotation samples scattering shown in Fig shows single crystal solid spectra spectrum SQUID stoichiometry substitution substrate superconducting superconducting transition superfluid symmetry technique temperature dependence theory thermopower thickness thin films transition temperature underdoped unit cell van Hove singularity X-ray diffraction YBCO YBCO films zero