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Physica C: Superconductivity 1993: Vol 214 Index PDF

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PHYSICA | Physica C 214 (1993) 435—438 North-Holland Author Index to Volume 214 Chen, Z.Y., see Y.Q. Tang 214, 190 Abaliosheva, I.S., see P.N. Mikheenko 214, 393 Chow, J.C.L., see G.J. Shen 214, 426 Abrikosov, A.A., J.C. Campuzano and K. Gofron, Chu, C.W., see R.L. Meng 214, 307 Experimentally observed extended saddle point singularity Cichorek, T., see Z. Henkie 214, 138 in the energy spectrum of YBa,Cu3;0,. and YBa,Cu,O; and Cooper, J.R.,see A. Porch 214, 350 some of the consequences 214, 73 Currie, D.B. and M.T. Weller, The crystal structures of Abrikosov, A.A., Influence of the gap anisotropy on LnBa,Cu,O, and LnBa,Cu,0,_; (Ln=Er, Ho, Dy) A high superconducting properties 214, 107 resolution powder neutron diffraction study 214, 204 Acha, C.,see P. Levy 214,111 Adachi, S., A. Tokiwa-Yamamoto, M. Itoh, K. Isawa and Daumling, M., G. Triscone and R. Fliikiger, Critical currents in H. Yamauchi, Annealing effects on the Meissner signals (Bi,Pb),Sr2Ca,Cu;,0, powder 214, 403 from Hg—Ba—Ca—Cu-O superconductors 214, 313 Desfeux, R., see G. Poullain 214, 195 Anczykowski, B., see H.M. Appelboom 214, 323 Dolata, R., M. Neuhaus and W. Jutzi, Laser reflection Andersen, J.N., see M. Qvarford 214, 119 measurements for end point detection and analysis in Nb/ Andersen, J.V., N.H. Andersen, O.G. Mouritsen and Al,O;—Al/Nb Josephson circuit fabrication 214, 365 H.F. Poulsen, Effects of Co, Fe, and Al doping on the Drulis, H., see Z. Henkie 214, 138 oxygen disordering and superconducting transition Dyomin, A.V., see V.A. Khlus 214, 413 temperature of YBa,Cu;0,,, 214, 143 Andersen, N.H., see J.V. Andersen 214, 143 Emel’chenko, G.A., see A.N. Maljuk 214, 93 Appelboom, H.M., V.C. Matijasevic, F. Mathu, G. Rietveld, Enz, C.P. and Z.M. Galasiewicz, The 7.—n, relation for weakly B. Anczykowski, W.J.A.M. Peterse, F. Tuinstra, J.E. Mooij, interacting charged Bose fluids 214, 239 W.G. Sloof, H.A. Rijken, S.S. Klein and L.J. Van IJzendoorn, Sm-Ba—Cu-—O films grown at low temperature Fastampa, R.,see E. Silva 214,175 and pressure 214, 323 Fedorov, V.,see N. Naumov 214, 291 Asaf, U., see I. Felner 214, 169 Felner, I., U. Asaf, D. Hechel, U. Yaron and T. Kroner, Azami, M. and T. Matsuura, The localized excited state ina Magnetic properties, specific heat studies and Mossbauer superconductor due to magnetic impurity 214, 385 measurements of PrBa,NbCu,0, 214, 169 Fernandez-Baca, J.A.,seeS. Katano 214, 64 Bakker, S.J.M., see T.G.M. Oosterlaken 214, 359 Ferrari, H.,see P. Levy 214,111 Baudenbacher, F., see K. Hirata 214,272 Fietz, W.H., see J. Metzger 214, 371 Bauerle, D.,see P. Schwab 214, 257 Finkbeiner, F., see S.P. Zhao 214, 345 Bayya, S.S. and R.L. Snyder, Synthesis of thallium Flodstrém, S.A., see M. Qvarford 214, 119 superconducting phases via melt quenching 214, 25 Fliikiger, R., see M. Daumling 214, 403 Bazhenov, A.V., K.B. Rezchikov, T.N. Fursova, A.A. Zakharov Freeman, A.J.,see J.J. Yu 214, 335 and M.B. Tsetlin, Infrared spectra of optical phonons in Freeman, P.A.,see A. Porch 214, 350 semiconducting La,CuO,,, single crystals 214, 45 Funahashi, S.,seeS. Katano 214, 64 Bekeris, V.,see P. Levy 214, 111 Funakura, M.,see A. Oota 214, 9 Blanc-Guilhon, B., see J.F. Hamet 214, 55 Fung, K.K., see W.L. Zhou 214, 19 Boothroyd, A.T., seeC.K. Chen 214, 231 Fursova, T.N.,see A.V. Bazhenov 214, 45 Boulesteix, C., see A. Rosova 214, 247 Galasiewicz, Z.M.,see C.P. Enz 214, 239 Campbell, A.M.,see A. Porch 214, 350 Giura, M., see E. Silva 214, 175 Campuzano, J.C., see A.A. Abrikosov 214, 73 Gofron, K., see A.A. Abrikosov 214, 73 Cantoni, M.,seeT. Kroener 214, 1 Gomeniuk, Yu.V., V.Z. Lozovski, V.S. Lysenko and Chan, I.N., see Y.Q. Tang 214, 190 I.P. Tyagulski, Critical currents in oxygen-implanted Chen, C.K., A.T. Boothroyd, Y. Hu, F.R. Wondre, YBa,Cu,0,_, thin films under magnetic and electrostatic B.M. Wanklyn and J.W. Hodby, Phase diagram studies and fields 214, 127 crystal growth of PrBa,Cu;0,_, 214, 231 Gopinath, C.S., S. Subramanian, M. Paranthaman and Chen, F., see R.L. Meng 214, 307 A.M. Hermann, Valence band electronic structure of the Chen, L.Q., see W.L. Zhou 214, 19 Tl,_,—,BazCa24,Cu30;9_,system 214, 153 436 Index of authors and papers Grube, K., see J. Metzger 214, 371 effects on structural properties of thin RE, Ba,Cu,07_; Guien, Z.,seeS. Lei 214, 133 films 214, 1 Kroner, T., see I. Felner 214, 169 Kuiper, G.J., see T.G.M. Oosterlaken 214, 359 Hamet, J.F., B. Blanc-Guilhon, A. Taffin, B. Mercey, Kulik, J..see R.L. Meng 214, 307 M. Hervieu and B. Raveau, Growth mechanism of a-axis ” 123” thin films on LaAlO; without PBCO interface 214, $5 Lam, C.C., seeG.J. Shen 214, 426 Hechel, D., see I. Felner 214, 169 Leelaprute, S., see R. Suryanarayanan 214, 277 Henkie, Z., T. Cichorek, H. Drulis and J. Klamut, Lei, S., L. Xiao-Guang, J. Yunbo, Z. Guien, R.L. Wang, Hydrogenation and deoxygenation effects on the C.A. Wang, H.R. Yi, H.C. Li and Z. Yuheng, X-ray study of thermoelectric power of SmBa,Cu;0, 214, 138 in-plane epitaxy of GdBa,Cu;07_., thin film on Hermann, A.M., see C.S. Gopinath 214, 153 MgO(001) 214, 133 Hervieu, M., see J.F. Hamet 214, 55 Leonyuk, L., see M. Qvarford 214, 119 Hervieu, M., see D. Pelloquin 214, 87 Lerch, Ph., see S.P. Zhao 214, 345 Hiraga, K., see S. Nakajima 214, 80 Leusink, G.J., see T.G.M. Oosterlaken 214, 359 Hirata, K., F. Baudenbacher and H. Kinder, Initial stage of Levy, M., seeG.Y. Meng 214, 297 YBa,Cu;07_., film growth on SrTiO; 214, 272 Levy, P., H. Ferrari, V. Bekeris and C. Acha, AC susceptibility Hodby, J.W., see C.K. Chen 214, 231 and local intergranular magnetic field in high-7, Hong, Q. and J.H. Wang, Electrical transport properties of the superconductors 214,111 rare-earth ion substituted (TI, Li, H.C., see S. Lei 214, 133 Ps )Sr, ¢Bao.4(Cao.gRo.2)Cu,O0, superconducting Li, Y.F., see Y.Q. Tang 214, 190 system 214, 286 Lindau, I., see M. Qvarford 214, 119 Hu, Y.,see C.K. Chen 214, 231 Linker, G., see T. Kroener 214, | Huang, Z.J.,see R.L. Meng 214, 307 Lozovski, V.Z., see Yu.V. Gomeniuk 214, 127 Ludwig, H.A., see J. Metzger 214, 371 Lundgren, E., see M. Qvarford 214,119 Ikeda, M.A., see M. Sugihara 214, 159 Luo, W.A., see Y.Q. Tang 214, 190 Isawa, K., see S. Adachi 214, 313 Lysenko, V.S., see Yu.V. Gomeniuk 214, 127 Itoh, M., see S. Adachi 214, 313 Iwaya, J.,see A. Oota 214, 9 Machi, T., see J. Sugiyama 214, 316 Maignan, A., see D. Pelloquin 214, 87 Jaeger, H.M., see T.G.M. Oosterlaken 214, 359 Maljuk, A.N., A.A. Zhokhov, G.A. Emel’chenko, I.I. Zver’kova, Jaggi, A.,see S.P. Zhao 214, 345 A.N. Turanov and V.Sh. Shekhatman, Cu-deficiency in Janssen, G.C.A.M., see T.G.M. Oosterlaken 214, 359 La2_,Sr,Cu,_,O,4_.5 single crystals and how it affects Jutzi, W.,see R. Dolata 214, 365 superconducting properties 214, 93 Marcon, R., see E. Silva 214,175 Kao, H.-C.I., see T.P. Wei 214, 179 Massidda, S., see J.J. Yu 214, 335 Kao, H.-C.I., see D.S. Wu. 214, 261 Massing, S.,see T. Kroener 214, | Katano, S., J.A. Fernandez-Baca, S. Funahashi, N. Mori, Mathu, F., see H.M. Appelboom 214, 323 Y. Ueda and K. Koga, Crystal structure and Matijasevic, V.C.,see H.M. Appelboom 214, 323 superconductivity of La,_ ,.Ba,CuO, (0.03<x<0.24) 214, Matsushita, T., On the origin of the irreversibility line in 64 superconductors Depinning or melting of fluxoids 214, Khlus, V.A., A.V. Dyomin and A.L. Zazunov, Resonant 100 tunneling through a single localized state in a normal-metal- Matsuura, T.,see M. Azami 214, 385 superconductor junction 214, 413 Meng, G.Y., G. Zhou, R. Schneider, B.K. Sarma and M. Levy, Kikuchi, M., see S. Nakajima 214, 80 Formation and characterization of YBa,Cu,;07_; high-7, Kikuchi, M.,see E. Ohshima 214, 182 thin films by MOCVD with single mixed precursor 214, Kikuchi, Y., see M. Sugihara 214, 159 297 Kinder, H., see K. Hirata 214,272 Meng, R.L., Y.Y. Sun, J. Kulik, Z.J. Huang, F. Chen, Y.Y. Xue Klamut, J.,see Z. Henkie 214, 138 and C.W. Chu, Superconductivity at 112-117 K in Klein, S.S.,see H.M. Appelboom 214, 323 HgBazCaCu,0,¢45 214, 307 Kochemasov, A., see P. Schwab 214, 257 Mercey, B., see J.F. Hamet 214, 55 Koga, K., seeS. Katano 214, 64 Metzger, J., T. Weber, W.H. Fietz, K. Grube, H.A. Ludwig, Koshizuka, N., see J. Sugiyama 214, 316 T. Wolf and H. Wiihl, Separation of the intrinsic pressure Kotlyarov, Yu.,see N. Naumov 214, 291 effect on T, of YBa,Cu3;0,7 from a JT, enhancement caused Kroener, T., G. Linker, O. Meyer, S. Massing, B. Strehlau, by pressure-induced oxygen ordering 214, 371 M. Cantoni and H.-U. Nissen, 300 keV proton irradiation Meyer, O., see T. Kroener 214, | Index of authors and papers 437 Michel, C., see D. Pelloquin 214, 87 obtained from the AC susceptibility of magnetically aligned Mikheenko, P.N. and I.S. Abaliosheva, Manifestation of two- powders 214, 350 dimensionality in the current-voltage characteristics of Poullain, G., R. Desfeux and H. Murray, Conditions for in-situ YBa,Cu,0, films 214, 393 growth of BiSrCaCuO thin films by laser deposition 214, Mogro-Campero, A., L.G. Turner and L.A. Peluso, Search for 195 changes of stoichiometry in YBa,Cu;30O, thin films subjected Poulsen, H.F., see J.V. Andersen 214, 143 to high current at 77K 214, 187 Proyer, S.,see P. Schwab 214, 257 Mooij, J.E.,see H.M. Appelboom 214, 323 Mori, N.,seeS. Katano 214, 64 Qvarford, M., N.L. Saini, J.N. Andersen, R. Nyholm, Mouritsen, O.G., see J.V. Andersen 214, 143 E. Lundgren, I. Lindau, J.F. Van Acker, L. Leonyuk, Murray, H., see G. Poullain 214, 195 S. Séderholm and S.A. Flodstrém, Polarisation-dependent X-ray absorption in high- and low-7, Bi,Sr,Ca,,_ ;Cu,0442, Nagase, K.,see E. Ohshima 214, 182 superconductors 214,119 Nagoshi, M., see E. Ohshima 214, 182 Nakajima, S., T. Oku, R. Suzuki, M. Kikuchi, K. Hiraga and Radelaar, S., see T.G.M. Oosterlaken 214, 359 Y. Syono, Chemical characterization and superconductivity Raveau, B., see J.F. Hamet 214, 55 of T1,Ba2_ ,La,CuO, with the orthorhombic and tetragonal Raveau, B., see D. Pelloquin 214, 87 structures 214, 80 Rezchikov, K.B., see A.V. Bazhenov 214, 45 Nakajima, S.,see E. Ohshima 214, 182 Rietveld, G., see H.M. Appelboom 214, 323 Nakao, Y., see M. Sugihara 214, 159 Rijken, H.A., see H.M. Appelboom 214, 323 Naumov, N., Yu. Kotlyarov, P. Samoilov and V. Fedorov, Rosova, A., C. Boulesteix and I. Vavra, Role of microtwins in Existence conditions, stability and solid solutions of the twin lamella intersections and interconnections in family of Bi,BaLnCuO,, 5 cuprates with 2201-type YBa,Cu;07_, 214, 247 structure 214, 291 Routbort, J.L., Tracer diffusion of oxygen in Neuhaus, M., see R. Dolata 214, 365 NdBa,Cu;07,_5 214, 408 Niarchos, D., see R. Suryanarayanan 214,277 Nissen, H.-U., see T. Kroener 214, 1 Numai, K., see M. Sugihara 214, 159 Saigou, T.,see A. Oota 214,9 Nyholm, R., see M. Qvarford 214, 119 Saini, N.L., see M. Qvarford 214, 119 Samoilov, P., see N. Naumov 214, 291 Sarma, B.K., seeG.Y. Meng 214, 297 Ohshima, E., M. Kikuchi, M. Nagoshi, R. Suzuki, S. Nakajima, Sarti, S.,see E. Silva 214, 175 K. Nagase and Y. Syono, Structure and superconductivity of Sato, H.,see H.B. Zhang 214, 265 Tlo,sPbo,sSr2CuO, 214, 182 Schneider, R., seeG.Y. Meng 214, 297 Oku, T., see S. Nakajima 214, 80 Schwab, P., X.Z. Wang, S. Proyer, A.K ochemasov and Oosterlaken, T.G.M., G.J. Leusink, G.J. Kuiper, $.J.M. Bakker, D. Bauerle, Synthesis of YBa,_,Sr,Cu;07_, by pulsed-laser A.H. Verbruggen, H.M. Jaeger, G.C.A.M. Janssen and deposition 214, 257 S. Radelaar, Resistivity and superconducting transition Selke, W. and G.V. Uimin, Oxygen ordering in YBa2Cu3;0, A temperature of very thin amorphous tungsten—germanium Monte Carlo study 214, 37 films deposited by chemical vapour deposition 214, 359 Shekhatman, V.Sh., see A.N. Maljuk 214, 93 Oota, A., J. Iwaya, P. Songsak, T. Saigou and M. Funakura, Shen, G.J., C.C. Lam, J.C.L. Chow and S.T. Tang, Twin Critical current density, morphology and microstructure of formation due to irradiation of energetic electron beam in Ag-sheathed (Bi, Pb) ,Sr,Ca,Cu,;0, tapes 214, 9 high-temperature superconductors of In- and Sb-doped Ott, H.R., see S.P. Zhao 214, 345 YBCO 214, 426 Sheng, Z.Z., see Y.Q. Tang 214, 190 Paranthaman, M., see C.S. Gopinath 214, 153 Silva, E., R. Marcon, R. Fastampa, M. Giura and S. Sarti, Pederson, D.O., see Y.Q. Tang 214, 190 Magnetic 3D-2D crossover in Bi,SrzCaCu,0g,, 214, 175 Pelloquin, D., C. Michel, G. Van Tendeloo, A. Maignan, Sloof, W.G., see H.M. Appelboom 214, 323 M. Hervieu and B. Raveau, A new “1201” mercury cuprate Snyder, R.L., see S.S. Bayya 214, 25 The 27 K-superconductor Hg ;Bip.5St2_,La,CuO;_5; 214, Séderholm, S., see M. Qvarford 214, 119 87 Songsak, P.,see A. Oota 214, 9 Peluso, L.A., see A. Mogro-Campero 214, 187 Strehlau, B.,see T. Kroener 214, 1 Peterse, W.J.A.M., see H.M. Appelboom 214, 323 Subramanian, S., see C.S. Gopinath 214, 153 Podloucky, R., see J.J. Yu 214, 335 Sugihara, M., K. Numai, Y. Nakao, Y. Kikuchi and M.A. Ikeda, Porch, A., J.R. Cooper, D.N. Zheng, J.R. Waldram, Optical absorption of hole doped cuprate materials 214, A.M. Campbell and P.A. Freeman, Temperature dependent 159 magnetic penetration depth of Co and Zn doped YBa,Cu30, Sugiyama, J., T. Machi, I. Tomeno, H. Yamauchi, 438 Index of authors and papers N. Koshizuka and H. Yasuoka, An NMR study of Weber, T., see J. Metzger 214, 371 superconducting Nd,CuO;33Fp). 214, 316 Wei, T.P., C.M. Wang and H.-C.I. Kao, Qualitative study on the Sun, Y.Y.,see R.L. Meng 214, 307 reaction of Bi, gPbo 4Ca2Sr.Cu3;O, superconductor with Suryanarayanan, R., S. Leelaprute and D. Niarchos, water 214,179 Irreversibility line of Y,_ ,Ca,SrB9Cao9C 1u064 , Weller, M.T., see D.B. Currie 214, 204 (0<x<0.25) A comparative study of DC magnetization Wolf, T., see J. Metzger 214, 371 and complex AC susceptibility 214,277 Wondre, F.R., see C.K. Chen 214, 231 Suzuki, R., see S. Nakajima 214, 80 Wu, D.S., H.-C.I. Kao, M.K. Wu and C.M. Wang, Suzuki, R., seeE. Ohshima 214, 182 Superconductivity of the single phase La,_ ,Ca,Ba3;Cu,O,, Syono, Y., see S. Nakajima 214, 80 system 214, 261 Syono, Y., see E. Ohshima 214, 182 Wu, M.K., see D.S. Wu 214, 261 Wiihl, H., see J. Metzger 214, 371 Taffin, A., see J.F. Hamet 214,55 Tang, S.T., seeG.J. Shen 214, 426 Xiao-Guang, L., see S. Lei 214, 133 Tang, Y.Q., Z.Z. Sheng, W.A. Luo, I.N. Chan, Z.Y. Chen, Xue, Y.Y.,seeR.L. Meng 214, 307 Y.F. Li and D.O. Pederson, Phase transformation during low temperature TI-diffusion in the fabrication of Tl-Ba- Ca-—Cu-O thin films 214, 190 Yamauchi, H., see S. Adachi 214, 313 Tateno, J., Coexistence of Anderson localization and small Yamauchi, H., see J. Sugiyama 214, 316 polarons in the normal phase of La,_ ,Sr,CuO, 214, 377 Yaron, U., see I. Felner 214, 169 Tokiwa-Yamamoto, A., see S. Adachi 214, 313 Yasuoka, H., see J. Sugiyama 214, 316 Tomeno, I., see J. Sugiyama 214, 316 Yi, H.R., see S. Lei 214, 133 Triscone, G., see M. Daumling 214, 403 Yu, J.J., S. Massidda, A.J. Freeman and R. Podloucky, Tsetlin, M.B.,see A.V. Bazhenov 214, 45 Electronic structure and properties of vacancy-ordered Tuinstra, F.,see H.M. Appelboom 214, 323 YBa,Cu30,.; Chain versus plane Fermi surfaces in Turanov, A.N., see A.N. Maljuk 214, 93 YBa,Cu;0;_5 214, 335 Turner, L.G., see A.M ogro-Campero 214, 187 Yuheng, Z., see S. Lei 214, 133 Tyagulski, I.P., see Yu.V. Gomeniuk 214, 127 Yunbo, J.,see S. Lei 214, 133 Ueda, Y., see S. Katano 214, 64 Uimin, G.V., see W. Selke 214, 37 Zakharov, A.A., see A.V. Bazhenov 214, 45 Zazunov, A.L., see V.A. Khlus 214, 413 Van Acker, J.F., see M. Qvarford 214,119 Zehnder, A., see S.P. Zhao 214, 345 Van IJzendoorn, L.J.,seeH.M. Appelboom 214, 323 Zhang, H.B. and H. Sato, Structural stability of Bi-based Van Tendeloo, G., see D. Pelloquin 214, 87 cuprates 214, 265 Vavra, I.,seeA. Rosova 214, 247 Zhang, Z.B., see W.L. Zhou 214, 19 Verbruggen, A.H., see T.G.M. Oosterlaken 214, 359 Zhao, S.P., F. Finkbeiner, Ph. Lerch, A. Jaggi, A. Zehnder and H.R. Ott, A Nb/AIO,/Nb trilayer process for the fabrication Waldram, J.R.,see A. Porch 214, 350 of X-ray detectors 214, 345 Wang, C.A.,seeS. Lei 214, 133 Zhao, W., see W.L. Zhou 214, 19 Wang, C.M., see T.P. Wei 214, 179 Zheng, D.N., see A. Porch 214, 350 Wang, C.M., see D.S. Wu _2 14, 261 Zhokhov, A.A., see A.N. Maljuk 214, 93 Wang, J.H.,seeQ. Hong 214, 286 Zhou, G., seeG.Y. Meng 214, 297 Wang, R.L., see S. Lei 214, 133 Zhou, W.L., W. Zhao, K.K. Fung, L.Q. Chen and Z.B. Zhang, Wang, X.Z.,see P. Schwab 214, 257 Microstructures of C¢, textured thin film 214, 19 Wanklyn, B.M., see C.K. Chen 214, 231 Zver’kova, I.I., see A.N. Maljuk 214, 93 PHYSICA [' Physica C 214 (1993) 439—440 North-Holland Analytic Subject Index to Volume 214 1/N-expansion 385 Hydrogenation effect 138 Phonon spectrum 45 Photoemission spectroscopy 73, 153 2-D vortex 393 Impurites 107 Proximity effect 413 Internal friction 408 AC susceptibility 111,277, 350, 371 Ion implantation 127 Reaction with water 179 Andreev reflection 413 Irradiation effect 1 Anisotropic superconductor 107,175 Irreversibility line 100, 277 Solid solubility Antiferromagnetic order 169, 316 Isotope effect 73 -in Sm,+,Baz_,Cu3;0, 323 Applications of high-7, Specific heat superconductors 9,179 Josephson effect 345, 365 -of PrBa,NbCu,0, 169 Strong correlation 159 Band structure 73, 159 Kondo effect 385 Structural phase transition 64 -of Tl2_,__ ,BazCa2,,Cu30j9_, 153 Structural stability 265 Bose condensation 239, 377 Lattice gas model 37 Structure Lattice matching 133 -of BiSrCaCuO 195 Critical current density 9, 127, 187, 286, Lattice parameters 1, 204, 261 —of Hgo sBio.;Sr2_,La,CuO;_5 87 403 Localization 359,377 -of HgBa,CaCu,0¢45 307 Critical state model 111 -of La,_,Ba,CuO, 64 Cu-deficiency 93 Magneticimpurity 385 —of La,_,Sr,Cu,;_,O4_5 93 Cu-O chains 143, 335 Magnetic susceptibility 169 -—of LnBa,Cu;0,_; (Ln=Er, Ho, Cu-O planes 37, 64, 119 Magnetization 277, 403 Dy) 204 Magnetoresistance 175 —of LnBa,Cu,O, (Ln=Er,Ho,Dy) 204 Defect structures 19, 143, 247 Mass spectroscopy 408 -of Nd,CuO3Fo2 316 Dimensional crossover Meissner effect 313 -of Sm,4,Baz_,Cu3;0, 323 -in Bi,Sr,CaCu,03,, 175 Microstructure 9 -of Tlo.sPbo,sSr2CuO, 182 Domain structure 247 Mixed solid precursor 297 -of Tl-2201 25 MOCVD 297 -of T1-2212 25 EDX 80 Monte Carlo simulations 37 -of Tl-2223 25 Electrical resistivity 138, 195, 286, 359, Mossbauer spectroscopy 169 -of Tl,Ba,_,La,CuO, 80 377, 393 -of Tl-Ba—Ca-—Cu-O 190 Electric field effect 127 Neutron diffraction 64, 204, 231 -of Y-Ba—Cu-O 55 Electron diffraction 272 NMR_ 316 Structure of Cog 19 Electronic structure 119 Non-ohmic behaviour 393 Substitution effects 257 -of YBa,Cu;07_; 335 Normal-state properties —in Bi,Sr2Ca,,_ ;Cu,O2,4445 265 Electron—phonon coupling 335 —of La,_,Sr,CuO, 377 -in Energy gap 73, 107, 385 Nucleation 272 (T1,Pb)Sr, 6Bao.4(Cao.gRo2)Cuz0, 286 -in YBa,Cu3;0,¢,, 143 Far-infrared spectra 45 Optical reflection 365 ~—in YBa,Cu;0, 350 Fermi surface 335 Optical spectroscopy 159 -in YBCO 426 Fluctuation effects 350 O-T transition 93 Substitution of Ca and Co Flux creep 9 Oxygen diffusion 408 -in YSrBaCu;0,¢,, 277 Flux pinning 100, 111, 277, 403 Oxygen ordering 1, 143, 371 Synthesis -in YBa,Cu;0, 37 -of Bi-Ba—Ln-Cu-O 291 Grain boundaries 127 Oxygen stoichiometry 45, 80, 138, 182, -—of BiSrCaCuO 195 Granular superconductivity 111 187, 261, 265, 291 —of Hgo sBig.sSr2_,La,CuO;_5 87 —of HgBa,CaCu,0,+ 6 307 High-pressure effect 371 Penetration depth 350 -of Hg-Ba—Ca-Cu-O 313 Hole concentration 64 Phase diagram 231 —of Laz_ ,Sr,Cu, -y04-6 93 HREM 19, 55, 307 Phase stability 291 -of La,_,Ca,Ba3;Cu,O, 261 440 Analytic subject index -of Nb/Al,03;-Al/Nb 365 TEM 247, 426 -of Nb/AIO,/Nb 345 Thermoelectric effects Vacancy-ordering 335 -of PrBa,Cu;0,_, 231 -in SmBa,Cu;0, 138 Vortex lattice 100 -of SmBa,Cu;0, 323 Thin film -of Tl-2201 25 -of GdBa,Cu3;0,7_, 133 XAFS 119 -of Tl-2212 25 -of YBa,Cu;07_; 297 XPS_ 153 -of T1-2223 25 -of YBa,Cu;0, 393 X-ray detector 345 -of Wo7Geo.3 359 Thin films 1, 19, 55, 127, 187, 190, 195, X-ray diffraction 1, 25, 133, 182, 190, -of YBa,Cu;0;_, 272 257, 272, 323, 359 195, 307, 313 -of YBa,_,Sr,Cu;07,_5; 257 Tunneling 107, 413 -—of Y-Ba-—Cu-O 55 Twin boundaries 19, 247, 426 Type-II superconductors 239

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