- Email: [email protected]
Analytic subject index to volume 244
lUgll ELSEVIER
PhysicaC 244(1995) 405-406
Analytic Subject Index to Volume 244 Aging effect 333 Anisotropic superconductors 1, 10, 71 Antiferromagneticorder 41,185, 193 Applications -of high-To superconductors 63 Band structure 87 Band structure, multiband 271 BCSmodel 87, 271 Bismuth-based superconductors 78,115, 135, 139,225, 305, 321 Borocarbides 41, 101 Carrier distribution 361 Charge fluctuations 311 Charge transfer 349 Charge transfer scaling 305 Coordination 135 Coulomb interactions 49, 243 Critical current density 78, 106, 115, 123,287,299, 389 Critical exponents 198 Crystal electric field 214 Crystal growth -of Ca2CuO3 193 -of Yj_~CaxBa2Cu3OT_6 256 -ofYBa2Cu3Ov_a 145 Crystal growth, chemical reactions 321 Crystal structure -of La3Ni2B2Na_x 101 -of (Pb2Cu)Sr0.9Lat.iCuO6+6 263 -of YBazCu306+x 349 Cu-Ochains 71,293 Defect structures 293 Dimensionality 225, 357 -ofYBaCuO 198 D-wave pairing 311 Electronic structure
243, 311
FIR transmittance 231 Fishtail effect 341 Fluctuations 78, 198
Flux flow 287, 389 Flux pinning 1, 10, 78, 153, 165, 214 Gapless superconductivity 185 Grain boundaries 287, 299, 373 Granular superconductors 35, 54, 106, 287, 373 Granural superconductors 299 Heisenberg model 83 Hole concentration 311,341 Holstein model 21 Homogeneity I 15 Hubbard model, two-dimensional
Knight shift
49
123,287
357
Madelung potentials 361 Magnetization 106, 115, 123 Magnetization, irreversible 78 Magnetostriction -in REBa2Cu3Ov_x 214 Microstructure 106, 145 M6ssbauer spectroscopy 333 Mutual induction method 153, 165 Nambu-Gor'kov formalism 271 Nernst effect 389 Neutron diffraction 101 Normal state properties 357 Nuclear magnetic resonance 1, 10, 207, 357 Oxycarbonate superconductors
139,263.293
Penetration depth 1, 10, 63, 153, 165, 337, 341 Phase diagram 139, 145, 193 Phenomenological Landau's theory 129 Polaronic superconductors 21 Pressure effect 361 Raman scattering 35, 293 Resistivity, angular dependence RVB model 83
Impurity scattering 243 Infinite-layer 282 Intercalation 305 Interlayer coupling 71 Interlayer pairing 361 Irradiation effect 293 Irreversibility line 214, 341 Josephson effect
Oxygen stoichiometry
282
71
Scaling 225 Seebeck effect 389 Soft modes 129 Specific heat 54, 225 Spin density wave 87 Spin fluctuations 207,243 Spinons 83 Spiral magnetic order 41 Strong coupling effects 21 Structural phase transition -in La2CuO4 129 Structural phase transition, orthotetra 263 Substitution effects 333 -in Bi2Sr3_yCayCu2Ox 139 -in (Bi2_xSbx)Sr2CaCu2Oy 135 Substrate treatment 231 Superlattices 282, 349 Surface resistance 231,337 Susceptibility, anisotropy 193,207 S-wave pairing, extended 185 Symmetrization 271 Synthesis -of (Bi2_xSbx)Sr2CaCu2Oy 135 -of Tl2Ba2Ca2Cu3Ox 337 Tapes 115 Texture 35,63,115,145,231,256,287, 299,373 Thallium-based superconductors 10, 207,337,341
406 Thermoelectric power 263, 305 Thermopower 54 Thin films 231 -of Ba (Cu,C)O2+~, 282 -of Bi2Sr2CaCu2Os 78 -of Ndl.ssCe0.1sCuO4_~. 389
Analytic subject index -of TI2Ba2Ca2Cu3Ox 337 -of YaBa2Cu307_~ 63 -ofYt_xCaxBa2CU3OT_,~ 256 -ofYj_xPrxBa2Cu30~ 71 -of YBa2Cu307_a 35 -ofYBa2Cu3OT_x 299, 373
-ofYBaCuO
198
Upper critical field Van Hove singularity
54 357
PhysicaC 244(1995) 405-406
Analytic Subject Index to Volume 244 Aging effect 333 Anisotropic superconductors 1, 10, 71 Antiferromagneticorder 41,185, 193 Applications -of high-To superconductors 63 Band structure 87 Band structure, multiband 271 BCSmodel 87, 271 Bismuth-based superconductors 78,115, 135, 139,225, 305, 321 Borocarbides 41, 101 Carrier distribution 361 Charge fluctuations 311 Charge transfer 349 Charge transfer scaling 305 Coordination 135 Coulomb interactions 49, 243 Critical current density 78, 106, 115, 123,287,299, 389 Critical exponents 198 Crystal electric field 214 Crystal growth -of Ca2CuO3 193 -of Yj_~CaxBa2Cu3OT_6 256 -ofYBa2Cu3Ov_a 145 Crystal growth, chemical reactions 321 Crystal structure -of La3Ni2B2Na_x 101 -of (Pb2Cu)Sr0.9Lat.iCuO6+6 263 -of YBazCu306+x 349 Cu-Ochains 71,293 Defect structures 293 Dimensionality 225, 357 -ofYBaCuO 198 D-wave pairing 311 Electronic structure
243, 311
FIR transmittance 231 Fishtail effect 341 Fluctuations 78, 198
Flux flow 287, 389 Flux pinning 1, 10, 78, 153, 165, 214 Gapless superconductivity 185 Grain boundaries 287, 299, 373 Granular superconductors 35, 54, 106, 287, 373 Granural superconductors 299 Heisenberg model 83 Hole concentration 311,341 Holstein model 21 Homogeneity I 15 Hubbard model, two-dimensional
Knight shift
49
123,287
357
Madelung potentials 361 Magnetization 106, 115, 123 Magnetization, irreversible 78 Magnetostriction -in REBa2Cu3Ov_x 214 Microstructure 106, 145 M6ssbauer spectroscopy 333 Mutual induction method 153, 165 Nambu-Gor'kov formalism 271 Nernst effect 389 Neutron diffraction 101 Normal state properties 357 Nuclear magnetic resonance 1, 10, 207, 357 Oxycarbonate superconductors
139,263.293
Penetration depth 1, 10, 63, 153, 165, 337, 341 Phase diagram 139, 145, 193 Phenomenological Landau's theory 129 Polaronic superconductors 21 Pressure effect 361 Raman scattering 35, 293 Resistivity, angular dependence RVB model 83
Impurity scattering 243 Infinite-layer 282 Intercalation 305 Interlayer coupling 71 Interlayer pairing 361 Irradiation effect 293 Irreversibility line 214, 341 Josephson effect
Oxygen stoichiometry
282
71
Scaling 225 Seebeck effect 389 Soft modes 129 Specific heat 54, 225 Spin density wave 87 Spin fluctuations 207,243 Spinons 83 Spiral magnetic order 41 Strong coupling effects 21 Structural phase transition -in La2CuO4 129 Structural phase transition, orthotetra 263 Substitution effects 333 -in Bi2Sr3_yCayCu2Ox 139 -in (Bi2_xSbx)Sr2CaCu2Oy 135 Substrate treatment 231 Superlattices 282, 349 Surface resistance 231,337 Susceptibility, anisotropy 193,207 S-wave pairing, extended 185 Symmetrization 271 Synthesis -of (Bi2_xSbx)Sr2CaCu2Oy 135 -of Tl2Ba2Ca2Cu3Ox 337 Tapes 115 Texture 35,63,115,145,231,256,287, 299,373 Thallium-based superconductors 10, 207,337,341
406 Thermoelectric power 263, 305 Thermopower 54 Thin films 231 -of Ba (Cu,C)O2+~, 282 -of Bi2Sr2CaCu2Os 78 -of Ndl.ssCe0.1sCuO4_~. 389
Analytic subject index -of TI2Ba2Ca2Cu3Ox 337 -of YaBa2Cu307_~ 63 -ofYt_xCaxBa2CU3OT_,~ 256 -ofYj_xPrxBa2Cu30~ 71 -of YBa2Cu307_a 35 -ofYBa2Cu3OT_x 299, 373
-ofYBaCuO
198
Upper critical field Van Hove singularity
54 357