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Analytic subject index to volume 223
Phy~caC 223 (1994)421-422
ELSEVIER
Analytic Subject Index to Volume 223 AC susceptibility 90, 163, 313 Annealing atmosphere 383 Antifcrromagnetic order 267 Bi9SrttCas oxide 383 Bose condensation 249,291 -in La2_~SrxCuO4 233 Carrier concentration 14, 213, 233 Compton profile 106 Copper oxy-sulphate 37 Critical current density 19, 62, 163, 207, 391 Crystal field 333 Crystal structure -ofBaBi~_xPbxO3 131
Grain boundaries 19, 189, 370, 391 Granular superconductor 62 High-pressure effect -in HgBa2Ca2Cu3Os+6 313 -in HgBa2CaCu206+j 313 Hole concentration 361 HREM 189,219, 243,370 Hubbard Hamiltonian 361 Hydrogen doping 140 Irreversibility line 259 I-V characteristics 19
Raman scattering 173 Real-space pairing 321 Reentrant behavior 111 RF magnetron sputtering
Josephson effect 123 Josephson lattice 62 Knight shift 145 Kosterlitz-Thouless model
Electrical resistivity 75, 111,131,145, 157, 227, 370 Electrochemical oxidation 75 Electronic correlations 291, 321 Electronic structure 1, 131,233, 249, 291,313, 321,396 - o f (BiL6Pbo.4)Sr2Ca2Cu3Olo+x 106 -of CaCuO2 339 -of Hg-Ba-Ca-Cu-O 213 -of SrCuO2 339 Electron-phonon interactions 249 Energy gap 83 Exchange interaction 333
Magnetic susceptibility 30,51,75 -ofBPSCCO 189 Magnetization 90, 207 -ofTIBaCaCuO 391 Magnetoresistance 46 -of HgBa2CuO4+~ 207 Meissner effect 347 Microstructure 163 Mixed state 276, 347 Modulated structures 189
Gapless superconductor
83
140,213,227,
Pair breaking 111 Phase purity 383 Phase separation 95, 157 Phonon spect, am 339 Photoinduced effects 123 Polarons 249
Debye temperature 57 Defect structures 219 Dielectric function 117 Dielectric ordering 95 D-wave superconductor 179
Fermi surface 106, 339 Fluctuating fields 333 Flux lattice 276 Flux pinning 259, 347 Frustration 361
Optical spectroscopy -ofYBaCuO 117 Oxygen stoichiometry 283 -in La2CuO4+x 157
46
Lattice parameters 227, 238, 243 Lower critical field Hc~ 347
Neutron diffraction
283 396 Neutron scattering 179 -of Hoo.lYo.9Ba2Cu3Ox 333 Nitrogen annealing 189 NMR 140,145 Non-ohmic behaviour 19, 46 - o f La2_xSrxCuO4 + 6
Off-diagonal long range order 291 Off-stoichiometric target 173
173
Scanning electron microscopy 370 Scanning tunneling microscopy 370 Specific heat -of Bi-Pb-Sr-Cu-O 57 Spin susceptibility 179 SQUID 90,123 Structural phase transition 140, 396 Structure -of Ba4MCu2 +,,O6+r ( SO4 ) = ( M = Ca, Y) 37 -ofBa-Ca-Cu-O 238, 243 -ofBi2Sr2C.~Cu2Ox 71 -of HgBa2Ca._ iCu.O2~ +2+~ 219 -of(Sr,Ca)l_yCuO2 30 _of TIEBa2CaaCu4OI2_6 283 -of Tl (Ba2_xSrx)PrCu207_.~, 267 Structure of thin films 370 Substitution effects 163 -m Bi2_xPbxSr2CaCu208 25 e-m GdBa2Cu3OT_6 83 -in La2_xSrxCuO4+6 396 -in Nd2_xe xCuO4_a I -m (RE)Ba2CuaO7 ( R E = Y or Nd) 145 -in Y t-xCa~Ba2CuaOy 14 -m YBa2Cu307_~ 227 -mYBa2Cu4Os 51
422 Surface barrier 276 Synthesis -of Ba4MCu, +xO~+y(SO4), (M=Ca, Y) 37 --ofBa-Ca-Cu-O 238 -ofBi-2223 163 --of La2CuO4 75 --of La~_~BaxCuO4+6 75 -of (Sr, Ca)~_~CuO2 30 --ofYBa2Cu4Os 51
Analytic subject index
Thin films 14, 391 -ofBi,Sr,CaCh:Ox 71
XAFS 131 X-ray diffraction 267, 383
Upper critical field H~ -ofTmRhi.3Sn4.o 1 ! 1 Vortex lattice melting Weak links
62
259
1, 14, 30, 51, 71,157,
ELSEVIER
Analytic Subject Index to Volume 223 AC susceptibility 90, 163, 313 Annealing atmosphere 383 Antifcrromagnetic order 267 Bi9SrttCas oxide 383 Bose condensation 249,291 -in La2_~SrxCuO4 233 Carrier concentration 14, 213, 233 Compton profile 106 Copper oxy-sulphate 37 Critical current density 19, 62, 163, 207, 391 Crystal field 333 Crystal structure -ofBaBi~_xPbxO3 131
Grain boundaries 19, 189, 370, 391 Granular superconductor 62 High-pressure effect -in HgBa2Ca2Cu3Os+6 313 -in HgBa2CaCu206+j 313 Hole concentration 361 HREM 189,219, 243,370 Hubbard Hamiltonian 361 Hydrogen doping 140 Irreversibility line 259 I-V characteristics 19
Raman scattering 173 Real-space pairing 321 Reentrant behavior 111 RF magnetron sputtering
Josephson effect 123 Josephson lattice 62 Knight shift 145 Kosterlitz-Thouless model
Electrical resistivity 75, 111,131,145, 157, 227, 370 Electrochemical oxidation 75 Electronic correlations 291, 321 Electronic structure 1, 131,233, 249, 291,313, 321,396 - o f (BiL6Pbo.4)Sr2Ca2Cu3Olo+x 106 -of CaCuO2 339 -of Hg-Ba-Ca-Cu-O 213 -of SrCuO2 339 Electron-phonon interactions 249 Energy gap 83 Exchange interaction 333
Magnetic susceptibility 30,51,75 -ofBPSCCO 189 Magnetization 90, 207 -ofTIBaCaCuO 391 Magnetoresistance 46 -of HgBa2CuO4+~ 207 Meissner effect 347 Microstructure 163 Mixed state 276, 347 Modulated structures 189
Gapless superconductor
83
140,213,227,
Pair breaking 111 Phase purity 383 Phase separation 95, 157 Phonon spect, am 339 Photoinduced effects 123 Polarons 249
Debye temperature 57 Defect structures 219 Dielectric function 117 Dielectric ordering 95 D-wave superconductor 179
Fermi surface 106, 339 Fluctuating fields 333 Flux lattice 276 Flux pinning 259, 347 Frustration 361
Optical spectroscopy -ofYBaCuO 117 Oxygen stoichiometry 283 -in La2CuO4+x 157
46
Lattice parameters 227, 238, 243 Lower critical field Hc~ 347
Neutron diffraction
283 396 Neutron scattering 179 -of Hoo.lYo.9Ba2Cu3Ox 333 Nitrogen annealing 189 NMR 140,145 Non-ohmic behaviour 19, 46 - o f La2_xSrxCuO4 + 6
Off-diagonal long range order 291 Off-stoichiometric target 173
173
Scanning electron microscopy 370 Scanning tunneling microscopy 370 Specific heat -of Bi-Pb-Sr-Cu-O 57 Spin susceptibility 179 SQUID 90,123 Structural phase transition 140, 396 Structure -of Ba4MCu2 +,,O6+r ( SO4 ) = ( M = Ca, Y) 37 -ofBa-Ca-Cu-O 238, 243 -ofBi2Sr2C.~Cu2Ox 71 -of HgBa2Ca._ iCu.O2~ +2+~ 219 -of(Sr,Ca)l_yCuO2 30 _of TIEBa2CaaCu4OI2_6 283 -of Tl (Ba2_xSrx)PrCu207_.~, 267 Structure of thin films 370 Substitution effects 163 -m Bi2_xPbxSr2CaCu208 25 e-m GdBa2Cu3OT_6 83 -in La2_xSrxCuO4+6 396 -in Nd2_xe xCuO4_a I -m (RE)Ba2CuaO7 ( R E = Y or Nd) 145 -in Y t-xCa~Ba2CuaOy 14 -m YBa2Cu307_~ 227 -mYBa2Cu4Os 51
422 Surface barrier 276 Synthesis -of Ba4MCu, +xO~+y(SO4), (M=Ca, Y) 37 --ofBa-Ca-Cu-O 238 -ofBi-2223 163 --of La2CuO4 75 --of La~_~BaxCuO4+6 75 -of (Sr, Ca)~_~CuO2 30 --ofYBa2Cu4Os 51
Analytic subject index
Thin films 14, 391 -ofBi,Sr,CaCh:Ox 71
XAFS 131 X-ray diffraction 267, 383
Upper critical field H~ -ofTmRhi.3Sn4.o 1 ! 1 Vortex lattice melting Weak links
62
259
1, 14, 30, 51, 71,157,