Physica C 174 (1991) 491-494 North-Holland Author Index to Volume 174 Akamatsu, M., see J. Fujikami 174, 359 Ewert, S.,see P. Lemmens_ 174, 289 Akimov, A.I., see Yu.N. Shvachko 174, 447 Almasan, C.C., C.L. Seaman, Y. Dalichaouch and M.B. Maple, Flower, N.E., see R.G. Buckley 174, 383 “Irreversibility line” and magnetic relaxation in a Fréning, P.,see P. Lemmens_ 174, 289 SM; gsCeo.1sCuO4_, single crystal 174, 93 Fujikami, J., R. Yoshizaki, M. Akamatsu, T. Ishigaki and Asano, H., see J. Fujikami 174, 359 H. Asano, Site-selective substitution effect on 7, in the Asthana, A., P.D. Han, Z. Xu, L. Chang, D.A. Payne and Bi2(Sr2_,Ca,) (Cao,gRo.2)Cu20g+, system (R=rare- P.J. Gilbert, Enhancement of the high-7, phase in Bi—Ca- earth) 174, 359 Sr-Cu-O by ceramic processing methods 174, 33 Fujita, J.,see T. Yoshitake 174, 144 Bai, G., see Y¥. Gao 174, 1 Gao, Y., K.L. Merkle, G. Bai, H.L.M. Chang and D.J. Lam, Bajorek, A., see Z. Tomkowicz 174, 71 Structure and composition of grain boundary dislocation Batanda, M., see Z. Tomkowicz 174,71 cores and stacking faults in MOCVD-grown YBa,Cu,;0,_ , Blackstead, H.A., D.B. Pulling, P.J. McGinn and J.Z. Liu, Flux- thin films 174, 1 tlow and phase-slip dissipation in crystalline Garriga, M.,see J. Kircher 174, 377 Bi,Sr,CaCu,0,45 and YBa,Cu;0,_; 174, 394 Geballe, T.H., seeJ.H. Kim 174, 435 Borner, H., see S.L. Ginzburg 174, 109 Geiser, U., A.J. Schultz, H.H. Wang, D.M. Watkins, Bowden, M., see R.G. Buckley 174, 383 D.L. Stupka, J.M. Williams, J.E. Schirber, D.L. Overmyer, Bozovic, I., see J.H. Kim 174, 435 D. Jung, J.J. Novoa and M.-H. Whangbo, Strain index, Brown, P.J., see H. Maletta 174, 489 lattice softness and superconductivity of organic donor- Buckley, R.G., D.M. Pooke, J.L. Tallon, M.R. Presland, molecule salts. Crystal and electronic structures of three N.E. Flower, M.P. Staines, H.L. Johnston, M. Meylan, isostructural salts x-(BEDT-TTF),Cu[N(CN).]X (X=Cl, G.V.M. Williams and M. Bowden, Ca- and La-substitution Br,I) 174, 475 in Y Ba,Cu30,_5, Y,Ba,zCu,O,;_5;and YBa,Cu,O, 174, Geserich, H.P., see J. Kircher 174, 377 383 Geus, H., see S. Ruppel 174, 233 Gilbert, P.J.,see A. Asthana 174, 33 Cahen, D.,see Y. Scolnik 174, 273 Ginzburg, S.L., V.P. Khavronin, G.Yu. Logvinova, Cardona, M., see J. Kircher 174, 377 I.D. Luzyanin, J. Herrmann, B. Lippold, H. Borner and Cavin, O.B., see T.B. Lindemer 174, 135 H. Schmiedel, Low-field electrodynamics of high-7, Chang, H.L.M.,see Y.Gao 174, 1 superconductors — theory andexperiment 174, 109 Chang, L.,see A. Asthana 174, 33 Gopalakrishnan, J.,.seeC.N.R. Rao 174, 11 Chattopadhyay, T., see H. Maletta 174, 489 Gray, K.E., R.T. Kampwirth, D.J. Miller, JM. Murduck, Chen, H.,see L. Tong 174, 352 D. Hampshire, R. Herzog and H.W. Weber, Observation of Chen, T.,see H. Zhang 174, 355 the crossover between bulk flux pinning and Josephson Clinton, T.W. and J.W. Lynn, Magnetic ordering of Er in phase slips in the critical current of granular powder and single crystals of ErBa,Cu,0, 174, 487 superconducting NbN/AIN multilayer films 174, 340 Comberg, A., see P. Lemmens_ 174, 289 Gurevich, A., see M. Polak 174, 14 Coppens, P., see M. Qi 174, 23 Hampshire, D., see K.E. Gray 174, 340 Dalichaouch, Y., see C.C. Almasan 174, 93 Han, P.D., see A. Asthana 174, 33 Das, A.N.,see J. Konior 174,215 Harris Jr., J.S.,seeJ.H. Kim 174, 435 De Jongh, L.J., see S.I. Mukhin 174, 455 Hayashi, S., K. Shibutani, I. Shigaki, R. Ogawa, Y. Kawate, Dixon, M.A., The normal state electronic structure of cuprate V. Maret, K. Kitahama and S. Kawai, Anisotropy of the superconductors: a covalent picture 174, 117 magnetic properties in Bi,Sr,CaCu,O, single crystal 174, Diirrler, M., see J. Kircher 174, 377 329 Hayn, R. and R. Schumann, The charge-transfer gap within the Eab, C.H. and I.M. Tang, The orthorhombic-tetragonal Gutzwiller approximation 174, 199 structural phase transition and its effect on the 7,.’s of the He, Q., see H. Zhang 174, 355 high temperature superconductors 174, 149 Herrmann, J., see S.L. Ginzburg 174, 109 Eom, C.B.,see J.H. Kim 174, 435 Herzog, R., see K.E. Gray 174, 340 492 Index of authors and papers Hewat, A.W., see D. Kovatcheva_ 174, 280 structure in YBa,Cu,;O,_, prepared by the quench and melt Hiller, W. and K. Kopitzki, Inverse AC Josephson effect in growth (QMG) process 174, 263 granular superconductors of different Josephson- Kircher, J., M. Cardona, M. Garriga, B. Nick, M. Diirrler, coupling 174, 467 A. Zibold and H.P. Geserich, Optical anisotropy in the Homonnay, Z., A. Nath, Y. Wei and T. Jing, Microprobing of Pb,Sr2(Y, Ca)Cu3;0g,, superconductor 174, 377 the chain site in YBa,Cu,;0,,, by cobal-157 as a function of Kitahama, K., see S. Hayashi 174, 329 the oxygen content. Superconductor-insulator Klavins, P., see L. Zhang 174, 431 transition 174, 223 Kmieé¢, R., see Z. Tomkowicz 174, 71 Hor, P.H., see Z.J. Huang 174, 253 Kodama, Y., see N. Murayama _ 174, 335 Horiuchi, H., see M. Kimura 174, 263 Konior, J. and A.N. Das, Polaronic band-width for a strongly Horiuchi, S., see X.J. Wu 174, 423 correlated Hubbard system 174, 215 Huang, Z.J., Y.Y. Xue, J. Kulik, Y.Y. Sun and P.H. Hor, Kopitzki, K., see W. Hiller 174, 467 Enhancement of critical current density in Koshta, A.A., see Yu.N. Shvachko 174, 447 Kovatcheva, D., P. Strobel, B. Souletie and A.W. Hewat, YBa,Cu;0,_5; 174,253 Structure and oxygen exchange in superconducting Hui, P.M., see D.M.T. Kuo 174, 365 Nd»Ceo.67Sro.33BaCu;09_5 174, 280 Igarashi, H., see T. Yoshitake 174, 144 Krasnov, V.M., V.A. Larkin and V.V. Ryazanov, The extended Bean critical state model for superconducting 3-axes Ikeno, Y.,see X.J. Wu 174, 423 ellipsoid and its application for obtaining the bulk critical Iqbal, Z.,see F.J. Owens 174, 309 field H,, and the pinning current J, in high 7, Ishigaki, T., see J. Fujikami 174, 359 superconducting single crystals 174, 440 Ishikawa, M., see Y. Nakazawa 174, 155 Kruk, R., see Z. Tomkowicz 174,71 Iwase, A., N. Masaki, T. Iwata and T. Nihira, Non-ohmic Ku, H.C., see G.H. Kwei 174, 180 resistive state in ion-irradiated YBa,Cu;0;_, 174, 321 Kulik, J., see Z.J. Huang 174, 253 Iwata, T.,see A. lwase 174, 321 Kuo, D.M.T. and P.M. Hui, Effective electromagnetic response Iye, Y., T. Tamegai and S. Nakamura, Dissipation in extremely in superconductor-normal metal composites 174, 365 anisotropic layered superconductor in parallel magnetic Kwei, G.H., J.B. Shi and H.C. Ku, Tlo.;Pbo.;Sr2CuQOs: a field 174,227 nonsuperconductor despite an “optimum” hole concentration in the Cu-O sheets 174, 180 Jha, S.S., see A.K. Rajagopal 174, 161 Kweli, G.H., see T. Sakurai 174, 187 Jing, T.,see Z. Homonnay 174, 223 Job, R., see M. Mittag 174, 101 Lam, D.J.,see Y. Gao 174, | Johnston, H.L., see R.G. Buckley 174, 383 Lan, M.D., see L. Zhang 174, 431 Jorgensen, J.D.,see R.P. Sharma _ 174, 409 Larkin, V.A., see V.M. Krasnov 174, 440 Jung, D., see U. Geiser 174, 475 Latka, K., see Z. Tomkowicz 174, 71 Lee, P., see M. Qi 174, 23 Kakimoto, K., see X.J. Wu 174, 423 Lemmens, P., P. Fréning, S. Ewert, J. Pankert, G. Marbach and Kalenborn, J.,see S. Ruppel 174, 233 A. Comberg, Ultrasonic attenuation by the vortex lattice of Kalinay, P., see V.Yu. Yushankhai 174, 401 Bi, 6Pbo.4Sr2Ca,Cu3;0, 174, 289 Kallias, G., V. Psyharis, D. Niarchos and M. Pissas, Lengfellner, H. and A. Schnellbégl, Nernst effect in high-7, Crystallographic, thermogravimetric and magnetization superconductors 174, 373 study of the YBa,Cu;_ ,Fe,O, superconductor (0<x<0.2, Li, R., see M. Qi 174, 23 6<y<7) 174,316 Lindemer, T.B., F.A. Washburn, C.S. MacDougall and Kampwirth, R.T., see K.E. Gray 174, 340 O.B. Cavin, Synthesis of Y-Ba—Cu-O superconductors in Kao, Y.H., see L.W. Song 174, 303 subatmospheric oxygen 174, 135 Kawai, S.,see S. Hayashi 174, 329 Lippold, B., see S.L. Ginzburg 174, 109 Kawate, Y., see S. Hayashi 174, 329 Liu, H.B., D.E. Morris, A.P.B. Sinha and X.X. Tang, Khairullin, I.I., see F.J. Owens 174, 309 Superconductivity in La,_ ,Sr,CaCu,O, at 60 K. Khavronin, V.P., see S.L. Ginzburg 174, 109 Investigation of doping and high pressure annealing 174, Kheifets, A.S., A.I. Veinger and L.G. Paritsky, Magnetic flux 28 trapping in hollow superconductors: possible device Liu, J.Z., see H.A. Blackstead 174, 394 application for optical signal detection 174, 86 Liu, J.Z., see L. Zhang 174, 431 Kim, J.H., I. Bozovic, C.B. Eom, T.H. Geballe and Lo, W., see T.B. Tang 174, 463 J.S. Harris Jr., Study of optical plasmons in Logvinova, G.Yu., see S.L. Ginzburg 174, 109 La; gsSf>,;sCu,x0O, 174, 435 Lusk, J.,see J.L. Tallon 174, 345 Kimura, M., M. Tanaka, H. Horiuchi, M. Morita, M. Tanaka, Luzyanin, I.D., see S.L. Ginzburg 174, 109 M. Matsuo, H. Morikawa and K. Sawano, A new domain Lynn, J.W., see T.W. Clinton 174, 487 Index of authors and papers MacDougall, C.S., see T.B. Lindemer 174, 135 Plakida, N.M., see V.Yu. Yushankhai 174, 401 Maletta, H., T. Chattopadhyay and P.J. Brown, Reply to the Polak, M., V. Windte, W. Schauer, J. Reiner, A. Gurevich and comment by Clinton and Lynn 174, 489 H. Wiihl, Contactless measurement of voltage—current Manivannan, V.,seeC.N.R. Rao 174, 11 characteristics of high-T, thin film superconductors 174, Maple, M.B., see C.C. Almasan 174, 93 14 Marbach, G., see P. Lemmens_ 174, 289 Pooke, D.M., see R.G. Buckley 174, 383 Maret, V.,see S. Hayashi 174, 329 Popov, V.L., see O.R. Musaev 174, 81 Masaki, N., see A. Iwase 174, 321 Presland, M.R., see J.L. Tallon 174, 345 Matsuo, M., see M. Kimura _ 174, 263 Presland, M.R., see R.G. Buckley 174, 383 McGinn, P.J., see H.A. Blackstead 174, 394 Psyharis, V., see G. Kallias 174, 316 Merkle, K.L., see Y. Gao 174, 1 Pulling, D.B., see H.A. Blackstead 174, 394 Meylan, M.,see R.G. Buckley 174, 383 Michels, G., see S. Ruppel 174, 233 Qi, M., P. Lee, R. Li, P. Coppens and J.H. Wang, Effect of Michels, G., see D. Wohlleben 174, 242 hydrogen reduction on the structure and conductivity of Miller, D.J.,see K.E. Gray 174, 340 YBa,Cu,0, 174, 23 Mittag, M., R. Job and M. Rosenberg, Magnetic relaxation and flux creep in ceramic (Bi, Pb)-2223 HTSC 174, 101 Rajagopal, A.K. and S.S. Jha, Generalized pairing theory of Morikawa, H., see M. Kimura _ 174, 263 superconductivity in layered crystals 174, 161 Morita, M., see M. Kimura 174, 263 Rao, C.N.R., J. Gopalakrishnan, A.K. Santra and Morris, D.E., see H.B. Liu 174, 28 V. Manivannan, Relation between 7, and hole Mukhin, S.I., D. Reefman and L.J. de Jongh, Specific heat of concentration in superconducting cuprates 174, 11 the local-pair superconductor 174, 455 Reefman, D., see S.I. Mukhin 174, 455 Miiller, W.F., see P.A. van Aken 174, 63 Rehn, L.E., see R.P. Sharma _ 174, 409 Murayama, N., Y. Kodama, S. Sakaguchi, F. Wakai and Reiner, J., see M. Polak 174, 14 Y. Torii, Influence of magnetic field on transport current Ren, H., see H. Zhang 174, 355 path in Bi-Pb-Sr—Ca-—Cu-O granular superconductor 174, Roden, B., see S. Ruppel 174, 233 335 Romanyukha, A.A., see Yu.N. Shvachko 174, 447 Murduck, J.M.,see K.E. Gray 174, 340 Rosenberg, M., see M. Mittag 174, 101 Musaev, O.R. and V.L. Popov, Moving of flux lines through a Rotella, F.J.,see R.P. Sharma 174, 409 random net of pinning centers 174, 81 Ruppel, S., G. Michels, H. Geus, J. Kalenborn, W. Schlabitz, B. Roden and D. Wohlleben, The equilibrium magnetization of granular high temperature Nakamura, S.,see Y. lye 174, 227 superconductors in low fields. I. The Meissner effect of Nakazawa, Y., J. Takeya and M. Ishikawa, Effects of oxygen YBa2(Cu,_,Fe,)307_, 174, 233 stoichiometry and Zn(Al1) substitution on low temperature Ruppel, S.,see D. Wohlleben 174, 242 specific heat anomaly of the Ba,YCu;O, system 174, 155 Ryazanov, V.V., see V.M. Krasnov 174, 440 Narumi, E., see L.W. Song 174, 303 Nath, A., see Z. Homonnay 174, 223 Sabatani, E., see Y. Scolnik 174, 273 Nelson, M.R., Dynamics of flux-line liquids in high-7, Sakaguchi, S., see N. Murayama _ 174, 335 superconductors 174, 40 Sakurai, T., T. Yamashita, J.O. Willis, H. Yamauchi, S. Tanaka Niarchos, D., see G. Kallias 174, 316 and G.H. Kwei, Combined X-ray and neutron powder Nick, B., see J. Kircher 174, 377 diffraction study of the structure of La, gSrp.»>CaCu,O.. Nihira, T., see A. Iwase 174, 321 Cation ordering and oxygen stoichiometry 174, 187 Novoa, J.J.,see U. Geiser 174, 475 Santra, A.K.,seeC.N.R. Rao 174, 11 Satoh, T., see T. Yoshitake 174, 144 Ogawa, R., see S. Hayashi 174, 329 Sawano, K.,see M. Kimura 174, 263 Osamura, K., see W. Zhang 174, 126 Schauer, W., see M. Polak 174, 14 Overmyer, D.L., see U. Geiser 174, 475 Schirber, J.E., see U. Geiser 174, 475 Owens, F.J., Z. Iqbal, A.A. Zakhidov and I.I. Khairullin, Schlabitz, W., see S. Ruppel 174, 233 Paramagnetic resonance of Cu?+ defects in mixed n=2 and Schmiedel, H., see S.L. Ginzburg 174, 109 n=3 phase Bi, ;sPby ;SrCa,,_ ;Cu,O2,44 Schnellb6égl, A., see H. Lengfellner 174, 373 superconductor 174, 309 Schultz, A.J., see U. Geiser 174, 475 Schumann, R., seeR. Hayn 174, 199 Pankert, J.,.see P. Lemmens_ 174, 289 Scolnik, Y., E. Sabatani and D. Cahen, Chemical diffusion Paritsky, L.G., see A.S. Kheifets 174, 86 coefficient of oxygen in polycrystalline YBa;Cu3;07_., at Payne, D.A., see A. Asthana 174, 33 room temperature 174,273 Pissas, M., see G. Kallias 174, 316 Seaman, C.L., see C.C. Almasan 174, 93 494 Index of authors and papers Sergeenkov, S.A., Memory effects in high-7, superconductive Veinger, A.I., see A.S. Kheifets 174, 86 glass model 174, 195 Shao, H.M., see L.W. Song 174, 303 Wakai, F.,see N. Murayama _ 174, 335 Sharma, R.P., F.J. Rotella, J.D. Jorgensen and L.E. Rehn, Wang, H.H., see U. Geiser 174, 475 Neutron diffraction and ion-channeling investigations of Wang, J.H.,seeM. Qi 174, 23 atomic displacements in YBa,Cu;07_; between 10 and 300 Washburn, F.A., see T.B. Lindemer 174, 135 K 174, 409 Watkins, D.M., see U. Geiser 174, 475 Shaw, D.T., see L.W. Song 174, 303 Weber, H.W., see K.E. Gray 174, 340 Shelton, R.N., see L. Zhang 174, 431 Wei, Y.,see Z. Homonnay 174, 223 Shi, J.B., see G.H. Kwei 174, 180 Whangbo, M.-H., see U. Geiser 174, 475 Shibutani, K., see S. Hayashi 174, 329 Williams, G.V.M., see R.G. Buckley 174, 383 Shigaki, I., see S. Hayashi 174, 329 Williams, J.M., see U. Geiser 174, 475 Shvachko, Yu.N., A.A. Koshta, A.A. Romanyukha, Willis, J.O., see T. Sakurai 174, 187 V.V. Ustinov and A.I. Akimov, Detection of the flux-line Windte, V., see M. Polak 174, 14 lattice in high-7, superconductors by ESR-probe Wohlleben, D., see S. Ruppel 174, 233 decoration 174, 447 Wohlleben, D., G. Michels and S. Ruppel, The equilibrium Sinha, A.P.B., see H.B. Liu 174, 28 magnetization of granular high temperature Sokolov, A.I., Specific heat anomalies in high temperature superconductors in low fields. II. The model 174, 242 superconductors. Critical behaviour or gaussian Wu, X.J., Y. Ikeno, K. Kakimoto and S. Horiuchi, fluctuations? 174, 208 Microstructures of Ag-sheathed Y-Ba—Cu-—O Song, L.W., E. Narumi, F. Yang, H.M. Shao, D.T. Shaw and superconducting tapes 174, 423 Y.H. Kao, Transport properties of YBa2(Cuo.9sMo.02)30, Wiihl, H., see M. Polak 174, 14 (M=Fe, Co, Ni) superconducting thin films 174, 303 Souletie, B., see D. Kovatcheva 174, 280 Xiao, L.,see H. Zhang 174, 355 Staines, M.P., see R.G. Buckley 174, 383 Xu, Z.,see A. Asthana 174, 33 Strobel, P., see D. Kovatcheva 174, 280 Xue, Y.Y., see Z.J. Huang 174, 253 Stupka, D.L., see U. Geiser 174, 475 Sun, Y.,seeH. Zhang 174, 355 Yamashita, T., see T. Sakurai 174, 187 Sun, Y.Y., see Z.J. Huang 174, 253 Yamauchi, H., see T. Sakurai 174, 187 Szytulla, A., see Z. Tomkowicz 174,71 Yan, S.,see L. Tong 174, 352 Yan, S.,see H. Zhang 174, 355 Takeya, J..see Y. Nakazawa 174, 155 Yang, F., see L.W. Song 174, 303 Tallon, J.L., J. Lusk and M.R. Presland, Pressure dependence of Yoshitake, T., T. Satoh, J. Fujita and H. Igarashi, Dependence T, in superconducting cuprates 174, 345 of structures and electrical properties on oxygen content in Tallon, J.L., see R.G. Buckley 174, 383 Nd,_ ,Ce,CuO,_, films 174, 144 Tamegai, T.,see Y. lye 174, 227 Yoshizaki, R., see J. Fujikami 174, 359 Tanaka, M., see M. Kimura 174, 263 Yushankhai, V.Yu., N.M. Plakida and P. Kalinay, Tanaka, S., see T. Sakurai 174, 187 Superconducting pairing in the mean-field approximation Tang, I.M.,seeC.H. Eab 174, 149 for the t—J model: numerical analysis 174, 401 Tang, T.B. and W. Lo, Oxygen diffusion in YBCO: an isothermal thermogravimetric study 174, 463 Zakhidov, A.A., see F.J. Owens 174, 309 Tang, X.X., see H.B. Liu 174, 28 Zhang, C.,see L. Tong 174, 352 Tomkowicz, Z., K. Latka, A. Szytulta, A. Bajorek, M. Batanda, Zhang, H., T. Chen, Y. Sun, H. Ren, L. Xiao, Q. He and S. Yan, R. Kmieé, R. Kruk and A. Zygmunt, Superconductivity in Studies of flux-pinning energies in high J, YBa,Cu,0, the (Gd,_,Pr,.)Ba,Cu,;07_ssystem 174, 71 prepared by melt-textured growth method 174, 355 Tong, L., C. Zhang, H. Chen and S. Yan, Anisotropic vortex Zhang, L., J.Z. Liu, M.D. Lan, P. Klavins and R.N. Shelton, structure in YBa ,Cu,O, thin films at liquid nitrogen Single crystal growth of Nd,_,Ce,CuO,_, 174, 431 temperature 174, 352 Zhang, W. and K. Osamura, Stability and crystal structure of Torii, Y.,see N. Murayama _ 174, 335 LnBa,Cu,3O, phase (Ln anthanide) 174, 126 Ustinov, V.V., see Yu.N. Shvachko 174, 447 Zibold, A., see J. Kircher 174, 377 Zygmunt, A., see Z. Tomkowicz 174, 71 Van Aken, P.A. and W.F. Miiller, Superstructure formation in the electron-doped superconducting system Nd,_ .Ce,CuO,_ 5. A transmission electron microscopical study 174, 63 Physica C 174 (1991) 495-496 North-Holland Analytic Subject Index to Volume 174 AC susceptibility of Flux dynamics 14, 40, 81, 227, 289, 321, - of La,_,Sr,CaCu,0, 28 superconductors 109 373 Magnetization 71, 93, 109, 335 Anisotropic superconductor 161, 227, Flux lattice 40, 289, 352, 447 Meissner effect 233,24 2 352, 377, 455 Flux pinning 40, 81, 93, 101, 253, 321, Memory effects 195 Antiferromagnetic order 340, 355 Metal-insulator transitio n 144, 223 ° -—in ErBa,Cu,0, 487 — in Bi,Sr,CaCu,O, single crystal 329 Microwave absorption 86 Applications of high-7, — in Bi,Sr,CaCu,Og,5 394 superconductors 86 Ginzburg-Landau theory 149 -—in YBa,Cu;0,_; 394 Glassy state 40, 195 Mossbauer spectroscopy 71,223 Band structure 117 Grain boundaries 1 Multilayers Granular superconductivity 233, 242, -ofNbN/AIN 340 Carrier concentration 11, 455 335, 340, 365, 467 Charge transfer gap 199 Nernst effect 373 Coherence length 208 Hall effect Neutron diffraction 180, 280 Copper valence 28 -in YBa, (C uo.98Mo 02 )30, (M =Fe, Co, -in YBa,Cu307_; 409 Critical current density 14, 23, 253, 263, Ni) 303 — of La, gSto.2»CaCu,0, 187 423, 440 High pressure effect Normal-state properties 117, 435 - in Bi,Sr,CaCu,O, single crystal 329 -—in Tlo.5Pbo,;CaSr2_,La,Cu,0, 345 - in Bi-Pb-Sr-Ca-—Cu-O 335 Hole concentration Optical reflectivity 435 — in YBa2 (Cup 9gMo.02)30, (M=Fe, Co, —in - of Pb-,Sr, (Y ,Ca )Cu30845 377 Ni) 303 Biz (Sr2_~Ca,) (Cao. gRo.2)Cu2O0g+, 359 Organic superconductor 475 -—in YBa,Cu,0, 355 — in Tlo.5Pbo,5;CaSr,_,La,Cu,0, 345 O-T transition 149 Critical phenomena 208 Hole concentrations 401 - in YBa,Cu;_,Fe,O, 316 Critical state model 109, 440 HREM 1 Oxygen diffusion 280 Cu-O chains 223, 280 Hubbard hamiltonian 401 -—in YBa,Cu307_; 463 Cu-O planes 11, 117, 345 Hubbard model 215 -—in YBa,Cu;0,;_, 273 Oxygen stoichiometry 23, 135, 144, 155, Defect structures 1, 233, 253 Infrared spectroscopy 365, 435 180, 187, 223 — in Bi, sPbo. sSr2Ca,_ ;Cu,O2n44 309 Interlayer pairing 161 — in Laz_ ,Sr,CaCu,0, 28 Domain structure 263 Intralayer pairing 161 -in YBa,Cu307_5 463 D-wave superconductors 401 Ion channeling 409 -in YBa2Cu;_,Fe,O, 316 Irradiation effect 321, 340 Effective medium approximation 365 Irreversibility line Penetration depth 447 Electrical resistivity 71, 227, 321 -in Sm, gsCeo,1sCuO4_, 93 ~in YBa,Cu,0, 352 Electron-doped superconductor 431 Phonon spectrum Electron-electron correlation 199 Josephson effect 467 —in YBa,Cu;07_; 409 Electronic structure 117 Pinning force - of x-(BEDT-TTF),Cu[N(CN),]X Lattice parameters 23, 126, 144 — in YBa (Cup .9sMo.02)30, (M=Fe, Co, (X=Cl, Br,I) 475 -in Ni) 303 — of Pb,Sr,(Y¥,Ca)Cu3;0g45 377 Bi (Sr2_.Ca,) (Cao. gRo.2)Cu2O0g+, 359 Plasmon mechanism 435 Electron—phonon coupling 215 -in YBa,Cu;_,Fe,O, 316 Emery model 199 Lattice softness 475 Specific heat 155, 455 ESR 447 Layered superconductor 161 Specific heat at T, 208 — in Bi, .sPbo sSr2Ca,_ 1;Cu,O2n+4 309 Local-pair superconductor 215, 455 Specific heat, low-7 155 Exchange-mediated pairing 401 London penetration depth 242 Structural phase transition 149 Lower critical field H,, 440 Structure ~ of x-(BEDT-TTF),Cu[N(CN)>]X Far-infrared spectra 435 Fluctuation effects 208 Magnetic relaxation 93, 101, 195, 242 (X=Cl, Br,I) 475 Fluxcreep 81,101 Magnetic susceptibility 33, 253, 316 — of La, gSto.2CaCu,0, 187 496 Analytic subject index - of LnBa,Cu,0, 126 —in YBa;Cu,O, 383 Thin films 1,14 — of NdCeo 67Sto.33BaCu;05_5 280 Substitution effects of Zn(Al) - of Nd,_,Ce,CuO,_, 144 - of Nd,_,Ce,CuO,_5 63 -in YBa,Cu;0, 155 - of YBa (Cuo.9sMo.02)30, (M=Fe, Co, - of Tlo 5Pbo.;Sr2CuO;, 180 Superconducting tapes 423 Ni) 303 Substitution effects 180 Surface impedance - of YBa,Cu,0, 352 -in Transmission electron microscopy 63, - of Bi,Sr,CaCu,O3, 5 394 Biz (Sr2_ ,Ca,) (Cao gRo.2)Cu2Og +y - of YBa,Cu,0,_; 394 423 - in Bi-Ca-Sr-Cu-O 33 Synthesis -— in (Gd,_,Pr,)Ba,Cu;0,_; 71 -— of Bi-Ca-Sr-Cu-O 33 Ultrasound attenuation Substitution effects of Ca - of LnBa,Cu,0, 126 -—in Bi, 6Pbo.4Sr2Ca2Cu;0,, 289 - in Y,Ba,Cu,O;5;_5 383 - of Nd,_,Ce,CuO,_,, (single Ultrasound velocity 289 -in YBa,Cu,0;_5 383 crystal) 431 -in YBa,Cu,O, 383 - of YBa,Cu;0,_, 135 Weak links 195, 263, 394, 467 Substitution effects of La - of YBa,Cu,O, 135 -in Y,Ba,Cu,0,5_5 383 X-ray diffraction 263 -in YBa,Cu,0,_; 383 Thermogravimetry 463 Physica C 174 (1991) 497 North-Holland Materials Index to Volume 174 Bi, sPbo sStzCa,,_ ;Cu,Orn+4 -—structure 187 — substitution effects of La 383 - defect structures 309 La,_ ,Sr,CaCu,0, Y Baz (Cuo.9sMo.02) 30, -ESR 309 — magnetic susceptibility 28 — critical current density 303 Bi, 6Pbo.4Sr2Ca2Cu;0, — oxygen stoichiometry 28 — Halleffect 303 — ultrasound attenuation 289 LnBa,Cu;0, -— pinning force 303 Bi,Sr,CaCu,Og, 5 -—structure 126 -thinfilms 303 — microwave absorption 394 —synthesis 126 YBa,Cu,0, — surface impedance 394 — critical current density 355 Bi,Sr,CaCu,O,. NbN/AIN — penetration depth 352 - critical current density 329 -— multilayers 340 -thinfilms 352 - flux pinning 329 Nd2Ceo 67St.33BaCu309_ 5 YBa,Cu3;07_;5 Biz (Sr2_~Ca,) (Cag. gRo.2)Cu20g+, —structure 280 — microwave absorption 394 -—hole concentration 359 Nd,_ .Ce,CuO,4_ 5 — neutron diffraction 409 — lattice parameters 359 -—structure 63 -— oxygen diffusion 463 — substitution effects 359 Nd2_,Ce,CuO,_, — oxygen stoichiometry 463 Bi-Ca-Sr—Cu-O —synthesis 431 —phonon spectrum 409 — substitution effects 33 —thinfilms 144 — substitution effects of Ca 383 -—synthesis 33 — substitution effects of La 383 Bi-Pb-Sr—Ca—Cu-O Pb,Sr> (Y ,Ca )Cu,;0¢g “és — surface impedance 394 - critical current density 335 - electronic structure 377 YBa,Cu;07_, — optical reflectivity 377 -— oxygen diffusion 273 ErBa,Cu,0, -—synthesis 135 — antiferromagnetic order 487 Sm gsCeo,1sCuO4_y YBa,Cu,O, — irreversibility line 93 — substitution effects of Zn(Al) 155 (Gd, _,Pr,)BazCu3;07_; YBa2Cu;_,Fe,O, — substitution effects 71 Tlo s5Pbo.;CaSr2_,La,Cu,0; —lattice parameters 316 — high pressure effect 345 -O-Ttransition 316 k-(BEDT-TTF),Cu[N(CN)2]X —hole concentration 345 — oxygen stoichiometry 316 — electronic structure 475 Tlo.5Pbo.5St2CuO; YBa,Cu,O, - structure 475 —structure 180 — substitution effects of Ca 383 — substitution effects of La 383 —synthesis 135 La, sSfo.2CaCu,0, Y,Ba,Cu,0;5_5 — neutron diffraction 187 — substitution effects of Ca 383