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Materials index to volume 168
Physica C 168 (1990) 681-682 North-Holland
MATERIALS
INDEX
Ag-YBa2Cu3OT_~ - critical current density - Fibers 189
189
TO VOLUME
168
structure - TEM 1
Bi ( Pb ) SrCaCuOx - SQUID 138 Bi-Sr-Ca-Cu-O H R E M 205 phase diagram 205 - structure 265
-
Sr2CuO2CI2
-
Bi2.ooSrl.ssCal.ooCu2a4Os+a - oxygen stoichiometry 167 Bi2Sr2Ca2CusO~o+s substitution effects 489 Bi2Sr2CaCu2 _ ~,FexOs+ a H R E M 265 - M6ssbauer spectroscopy 493 - structure 265 - substitution effects 493 Bi2Sr2CaCu2Os+6 - grain boundaries 239 - H R E M 239 magnetic susceptibility 499 - microwave absorption 91 N M R 291 - structure 239 - substitution effects 309 synthesis 351 - thin films 475 Bi2Sr2CaCu2Os_, Effect of annealing on T, 591 Bi2Sr2CaCu2Os+6 - oxygen stoichiometry 591 - UPS 104 - XPS 104 Bi2Sr2CaCuO2s+,~ penetration depth 91 Bi2Sr2Can_ iCunO4+2s+,~ H R E M 249 -
-
-
-
-
-
-
-
Bi2Sr2RE2_xCexCu2Olo+6 - structure 79 Bi2Sr2Yj _xCaxCu2Og+6 - antiferromagnetic order magnetic phase diagram muon spin rotation 23
-
23 23
-
Bi4Sr3Ca3Cu4_xFexOi6+a HREM 265 - structure 265 (Bi,Pb) 2Sr2Ca n_ iCanO4+2,t+a HREM 215 - structure 215 ( Bi,Pb ) 2Sr2 ( Ca,Y ) Cu2Os + H R E M 426 modulated structures 426 - structure 426 -
-
-
-
1
-
-
p
h
o
n
o
n
s
117
T'Ca2CuO 3 - phase diagram (Ca,Sr)3CusOy phase diagram -
205 205
(Ca, Sr )CuO2 -
p
h
o
n
o
n
117
s
-
La2_~cSrxCuI_yZnyO4 - ESR
370
La2_xSrxCnO4 - substitution effects
370
La2_~SrxCuO4_6
-
phonon mecha ni s m 647 plasmon mechani s m 647 La2CuO+ - defect structures 417 N M R 565 - N Q R 565 -
-
-
LaBa2Cu3OT_,~ thin films 599 Ln2_xMxCuO4_~ - high pressure effect
-phonons 117 TI2Ba2Ca2Cu3Oio - chemical shift 327 - Knight shift 327 - N M R 327 structure 315 - X-ray diffuse scattering 315 TI2Ba2CaCu2Os - chemical shift 327 - Knight shift 327 - N M R 327 structure 315 T12Ba2CuO6 - chemical shift 327 - Knight shift 327 - N M R 327 TI2Ba2CuOa+,, magnetic susceptibility 499 T1Ba2Cal _xRExCu207 structure 57 -
-
-
T1Ba2Ca2Cu309 530
Nd2 _xCexCuO4 infrared spectroscopy 580 Madelung energy 637 - neutron diffraction 627 - structure 627 Nd2_xCexCuO4_6 modulated structures 617 neutron diffraction 609 phonon spectrum 161 R a m a n scattering 161 structure 617 - TEM 617 Nd2_xCexCnOT_a - crystal field 609 -
-
structure 315 - X-ray diffuse scattering 315 TI (Sro.65Ndo.35) 2CaCu207 neutron diffraction 521 oxygen stoichiometry 521 - structure 521 -
-
-
YBa2Cu2WO9_a structure 546 synthesis 546 YBa2Cu306+a oxygen stoichiometry 549 YBa2Cu307 - infrared detectors 322 YBa2Cu30~_,~ AC susceptibility 123, 131,652 critical current density 63, 131, 185, 652 electron irradiation effect 539 flux pinning 185 - grain boundaries 405
-
-
-
-
-
-
-
-
-
-
PbBaSrYi _xCaCu30~ substitution effects 285 synthesis 285 -
-
PbPr2.4Srl.6Cu2.6Ox
-
-
6 82 granular superconductivity 123 - irradiation effect 131,539 magnetization 539 - Microemulsion process 571 Raman scattering 359 - screening of Ac magnetic field 123 - specific heat 465 synthesis 346 thermal expansion 465 - thin films 322, 359 -
-
-
-
-
Materials index YBa2Cu3OT.~ - specific heat, low-T 363 substitution effects 506 YBa2Cu408 - high pressure effect 482 - magnetization 272 oxygen stoichiometry 153 - penetration depth 272 phase diagram 153 - specific heat 47 -
-
-
specific heat, linear coefficient YBa2Cu+Os+6 - critical current density 40 Resistivity 40 - specific heat 40 YbBa2Cu3OT_~ specific heat 99 -
-
-
47
MATERIALS
INDEX
Ag-YBa2Cu3OT_~ - critical current density - Fibers 189
189
TO VOLUME
168
structure - TEM 1
Bi ( Pb ) SrCaCuOx - SQUID 138 Bi-Sr-Ca-Cu-O H R E M 205 phase diagram 205 - structure 265
-
Sr2CuO2CI2
-
Bi2.ooSrl.ssCal.ooCu2a4Os+a - oxygen stoichiometry 167 Bi2Sr2Ca2CusO~o+s substitution effects 489 Bi2Sr2CaCu2 _ ~,FexOs+ a H R E M 265 - M6ssbauer spectroscopy 493 - structure 265 - substitution effects 493 Bi2Sr2CaCu2Os+6 - grain boundaries 239 - H R E M 239 magnetic susceptibility 499 - microwave absorption 91 N M R 291 - structure 239 - substitution effects 309 synthesis 351 - thin films 475 Bi2Sr2CaCu2Os_, Effect of annealing on T, 591 Bi2Sr2CaCu2Os+6 - oxygen stoichiometry 591 - UPS 104 - XPS 104 Bi2Sr2CaCuO2s+,~ penetration depth 91 Bi2Sr2Can_ iCunO4+2s+,~ H R E M 249 -
-
-
-
-
-
-
-
Bi2Sr2RE2_xCexCu2Olo+6 - structure 79 Bi2Sr2Yj _xCaxCu2Og+6 - antiferromagnetic order magnetic phase diagram muon spin rotation 23
-
23 23
-
Bi4Sr3Ca3Cu4_xFexOi6+a HREM 265 - structure 265 (Bi,Pb) 2Sr2Ca n_ iCanO4+2,t+a HREM 215 - structure 215 ( Bi,Pb ) 2Sr2 ( Ca,Y ) Cu2Os + H R E M 426 modulated structures 426 - structure 426 -
-
-
-
1
-
-
p
h
o
n
o
n
s
117
T'Ca2CuO 3 - phase diagram (Ca,Sr)3CusOy phase diagram -
205 205
(Ca, Sr )CuO2 -
p
h
o
n
o
n
117
s
-
La2_~cSrxCuI_yZnyO4 - ESR
370
La2_xSrxCnO4 - substitution effects
370
La2_~SrxCuO4_6
-
phonon mecha ni s m 647 plasmon mechani s m 647 La2CuO+ - defect structures 417 N M R 565 - N Q R 565 -
-
-
LaBa2Cu3OT_,~ thin films 599 Ln2_xMxCuO4_~ - high pressure effect
-phonons 117 TI2Ba2Ca2Cu3Oio - chemical shift 327 - Knight shift 327 - N M R 327 structure 315 - X-ray diffuse scattering 315 TI2Ba2CaCu2Os - chemical shift 327 - Knight shift 327 - N M R 327 structure 315 T12Ba2CuO6 - chemical shift 327 - Knight shift 327 - N M R 327 TI2Ba2CuOa+,, magnetic susceptibility 499 T1Ba2Cal _xRExCu207 structure 57 -
-
-
T1Ba2Ca2Cu309 530
Nd2 _xCexCuO4 infrared spectroscopy 580 Madelung energy 637 - neutron diffraction 627 - structure 627 Nd2_xCexCuO4_6 modulated structures 617 neutron diffraction 609 phonon spectrum 161 R a m a n scattering 161 structure 617 - TEM 617 Nd2_xCexCnOT_a - crystal field 609 -
-
structure 315 - X-ray diffuse scattering 315 TI (Sro.65Ndo.35) 2CaCu207 neutron diffraction 521 oxygen stoichiometry 521 - structure 521 -
-
-
YBa2Cu2WO9_a structure 546 synthesis 546 YBa2Cu306+a oxygen stoichiometry 549 YBa2Cu307 - infrared detectors 322 YBa2Cu30~_,~ AC susceptibility 123, 131,652 critical current density 63, 131, 185, 652 electron irradiation effect 539 flux pinning 185 - grain boundaries 405
-
-
-
-
-
-
-
-
-
-
PbBaSrYi _xCaCu30~ substitution effects 285 synthesis 285 -
-
PbPr2.4Srl.6Cu2.6Ox
-
-
6 82 granular superconductivity 123 - irradiation effect 131,539 magnetization 539 - Microemulsion process 571 Raman scattering 359 - screening of Ac magnetic field 123 - specific heat 465 synthesis 346 thermal expansion 465 - thin films 322, 359 -
-
-
-
-
Materials index YBa2Cu3OT.~ - specific heat, low-T 363 substitution effects 506 YBa2Cu408 - high pressure effect 482 - magnetization 272 oxygen stoichiometry 153 - penetration depth 272 phase diagram 153 - specific heat 47 -
-
-
specific heat, linear coefficient YBa2Cu+Os+6 - critical current density 40 Resistivity 40 - specific heat 40 YbBa2Cu3OT_~ specific heat 99 -
-
-
47