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Physica C: Superconductivity 1991: Vol 176 Index PDF

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Preview Physica C: Superconductivity 1991: Vol 176 Index

PhysicaC 176 (1991) 597-601 North-Holland Author Index to Volume 176 Agostinelli, E.,see L. Dimesso 176, 216 Degterov, S.A., see G.F. Voronin 176, 387 Akella, J.,seeJ. Shu 176, 503 De Jonge, W.J.M., see J.H.P.M. Emmen_ 176, 137 Akis, R., C. Jiang and J.P. Carbotte, Quasiparticle damping, DeWames, R.E., see P.H. Kobrin 176, 121 anisotropy and Fermi liquid corrections to NMR in Dimesso, L., M.G. Francesconi, G. Calestani, E. Silva, superconductors 176, 485 R. Fastampa, R. Marcon, D. Fiorani, E. Agostinelli and Amelinckx, S., see G. Van Tendeloo 176, 575 A.M. Testa, Preparation and characterization of textured Aomine, T., see B. Zhao 176, 409 thick films of the 2212 phase in the BSCCO and BPSCCO Arendt, R.H., M.F. Garbauskas and P.J. Bednarczyk, An systems 176, 216 alternate preparation for (Bi,Pb),Ca,Sr,Cu,0, 176, 126 Divakaran, P.P. and A.K. Rajagopal, Superconductivity in Arendt, R.H., M.F. Garbauskas, K.W. Lay and J.E. Tkaczyk, layered materials. Pairing theory for projectively translation An alternate preparation for grain aligned structures of invariant states 176, 457 (Bi,Pb),Ca,Sr,Cu;0, 176, 131 Dong, C., see D.E. Weeks 176, 368 Azuma, M., see M. Takano 176, 441 Drechsler, S.L., see T. Galbaatar 176, 496 Duan, H., see F. Zuo 176, 541 Bando, Y., see M. Takano 176, 441 Barabanov, A.F. and L.A. Maksimov, Dynamic mechanism of Emmen, J.H.P.M., V.A.M. Brabers and W.J.M. de Jonge, polaron pairing in a two-layer model for high-7, Thermally-activated vortex dynamics in Bi,CaSr,Cu20O¢, 5 oxides 176, 511 studied by complex susceptibility measurements 176, 137 Barry, J.C., see C.C. Torardi 176, 347 Engelsberg, S., Superconductivity in the series Bauerle, D., see X.Z. Wang 176, 507 La3;Ba3Ca,Cu,+,,O,, 0<x<3, an oxygen deficient tetragonal Bazhenov, A.V., A.V. Gorbunov and K.B. Rezchikov, Low triple perovskite structure 176, 451 energy electron transitions in YBa,Cu,;0,,. ,s ingle crystals for different oxygen content 176, 35 Fastampa, R.,see L. Dimesso 176, 216 Bednarczyk, P.J.,see R.H. Arendt 176, 126 Fesenko, V.I., V.N. Gorbunov and V.P. Smilga, Analytical Boekholt, M., D. G6tz, H. Idink, M. Fleuster, T. Hahn, properties of muon polarization spectra in type-II E. Woermann and G. Giintherodt, Structural and superconductors and experimental data interpretation for superconducting properties of mono- and polycrystalline HTSCs 176, 551 Bi,_,Pb,Sr,CaCu,0g,5 176, 420 Finger, L.W.,see J. Shu 176, 503 Brabers, V.A.M., see J.H.P.M.Emmen_ 176, 137 Fiorani, D., see L. Dimesso 176, 216 Buckley, R.G., see M.R. Presland 176, 95 Fisher, B., G. Koren, J. Genossar, L. Patlagan and Buckley, R.G., see M.E. Ziaei 176, 242 E.L. Gartstein, Variable range hopping in PrBa,Cu;,0,_; 176,75 Calestani, G., see L. Dimesso 176, 216 Fisk, Z., see G.H. Kwei 176, 57 Canfield, P.C., seeG.H. Kwei 176, 57 Fleuster, M., see M. Boekholt 176, 420 Carbotte, J.P.,see R. Akis 176, 485 Flower, N.E., see M.R. Presland 176,95 Chandrashekhar, G.V., see P. Svedlindh 176, 336 Francesconi, M.G., see L. Dimesso 176, 216 Chen, J.W. and F.-A. Yang, Superconductivity in the Freeman, A.J., see S. Massidda_ 176, 159 La, .3sCeo,;5;Cu,;_,Ag,O4_ssystem 176, 257 Fruchter, L., see B. Janossy 176, 517 Chen, W., see P. McGinn 176, 203 Fueki, K., see Y. Idemoto 176, 325 Chen, Z.,seeR. Li 176, 19 Fujita, T.,see M. Kato 176, 533 Cheung, J.T.,see P.H. Kobrin 176, 121 Fujiwara, S.,see Y. Idemoto 176, 325 Chocron, S., see M. Golosovsky 176, 379 Fukami, T., see Y. Horie 176, 521 Chu, C.W., see Z.J. Huang 176, 195 Clayman, B.P., see M.E. Ziaei 176, 242 Gai, P.L., see C.C. Torardi 176, 347 Crossley, A., P.R. Graves and S. Myhra, Raman microprobe studies of Bi,Sr,CaCu,Ox. Extrinsic and intrinsic Isotope effect in a superconductor with strong effects 176, 106 anharmonicity 176, 496 Garbauskas, M.F., see R.H. Arendt 176, 126 Datta, T.,see F. Zuo 176, 541 Garbauskas, M.F., see R.H. Arendt 176, 131 Davidov, D., see M. Golosovsky 176, 379 Gartstein, E.L., see B. Fisher 176, 75 598 Index of authors and papers Genossar, J.,see B. Fisher 176, 75 Ikegawa, S., see M. Kosuge 176, 373 Genoud, J.-Y., see G. Triscone 176, 247 Ishida, T., K. Koga, S. Nakamura, Y. Iye, K. Kanoda, S. Okui, Gergis, I.S.,see P.H. Kobrin 176, 121 T. Takahashi, T. Oashi and K. Kumagai, Superconductivity Ghiron, K., see F. Zuo 176, 541 and magnetism of Bi,Sr,CaCu,0O,.. Effect of quenching and Ghoroghchian, J., see C.C. Torardi 176, 347 pulverization 176, 24 Glass, N., see P.H. Kobrin 176, 121 Ishizaka, K., see Y. Sawai 176, 147 Golosovsky, M., Y. Naveh, D. Davidov, H. Raffy, M. Schieber Iye, Y.,see T. Ishida 176, 24 and S. Chocron, Harmonic generation by current modulation of the microwave transmission through granular Janossy, B., H. Kojima, I. Tanaka and L. Fruchter, Anisotropic high-7, superconducting films 176, 379 properties of single-crystal (La,_,Sr,),CuO, Gopinath, C.S. and S. Subramanian, Photoemission study of (x=0.075) 176,517 the high-7, superconductor Bi, gPbo.4Sr,Caz,.Cu3;0;9 176, Jiang, C.,see R. Akis 176, 485 331 Jones, P.L., see A.J. Hill 176, 64 Gorbunov, A.V., see A.V. Bazhenov 176, 35 Junod, A., see G. Triscone 176, 247 Gorbunov, V.N., see V.I. Fesenko 176, 551 Gotoh, S. and N. Koshizuka, Direct observation of magnetic Kabanov, V.V., P.E. Kornilovich and O.Yu. Mashtakov, flux behavior in high-7,, YBa,Cu3O, superconductors using Motion of a single hole in the framework of the Emery the magneto-optical effect of iron garnet films 176, 300 model. Equivalence to the t-J model 176, 559 Gotz, D., see M. Boekholt 176, 420 Kadowaki, K., see P.E. Mijnarends 176, 113 Graf, T.,see G. Triscone 176, 247 Kang, D.B., see C.C. Torardi 176, 347 Graves, P.R., see A. Crossley 176, 106 Kanoda, K., see T. Ishida 176, 24 Greenblatt, M., see M.-H. Pan 176, 80 Katayama-Yoshida, H., see T. Watanabe 176, 274 Greenblatt, M.,see H.T. Shih 176, 87 Kato, M., Y. Maeno and T. Fujita, Two-dimensional Giintherodt, G., see M. Boekholt 176, 420 antiferromagnetic correlation with spin 1/2 in magnetic Gusmao, M.A.,see P. Pureur 176, 357 susceptibility of (La, Sr),NiO, 176, 533 Katz, I.M., see A.J. Hill 176, 64 Habermeier, H.-U., see D. van der Marel 176, | Kemmler-Sack, S., see T. Rentschler 176, 445 Hahn, T., see M. Boekholt 176, 420 Kiehl, W., see D.E. Weeks 176, 368 Hall, W.F., see P.H. Kobrin 176, 121 Kinoshita, K., H. Shibata and T. Yamada, Crystal structure and Hardy, W.N., see P. Schleger 176, 261 superconducting properties of La, g;Ca, ;;Cu2O+¢5 . Heitmann, D., see D. van der Marel 176, | Comparison with nonsuperconducting La, g5Ca, ;;Cu,O,¢_5 Hermann, A.M., see D.E. Weeks 176, 368 and La, g5St;.;sCu20¢4,5 176, 433 Hermann, A.M.,see F. Zuo 176, 541 Klemm, R.A. and S.H. Liu, Interlayer pairing and c-axis versus Hill, A.J., 1.M. Katz, P.L. Jones and R.P. Pagano, The study of ab-plane gap anisotropy in high-7, superconductors 176, the high temperature superconductor Y-Ba—Cu-O by 189 positron annihilation lifetime spectroscopy 176, 64 Kobrin, P.H., J.T. Cheung, W.W. Ho, N. Glass, J. Lopez, Hiroi, Z.,see M. Takano 176, 441 I.S. Gergis, R.E. DeWames and W.F. Hall, Millimeter-wave Ho, W.W., see P.H. Kobrin 176, 121 properties of YBa,Cu,O,_ , films grown by several Hong, G.-Y., see Y.-R. Li 176, 477 methods 176, 121 Honma, T., K. Yamaya, F. Minami and S. Takekawa, Koga, K., see T. Ishida 176, 24 Temperature dependences of anisotropic resistivity in the a- Kojima, H., see B. Janossy 176, 517 b plane and Hall coefficient in a single-crystal KG6nig, W., see D. van der Marel 176, | Bi,Sr,CaCu,0, 176, 209 Koren, G., see B. Fisher 176, 75 Hor, P.H., see Z.J. Huang 176, 195 Kornblit, L. and B. Ya. Moizhes, Comment on electronic Horie, Y.,see B. Zhao 176, 409 transport in cuprate superconductors 176, 295 Horie, Y., T. Miyazaki, T. Fukami and A.A.A. Youssef, Kornilovich, P.E., see V.V. Kabanov 176,559 Ultrasonic studies of thermally assisted flux flow and Koshizuka, N., seeS. Gotoh 176, 300 intrinsic pinning in high-7, phase Bi-Pb-Sr-—Ca—Cu-—O Koshizuka, N., see M. Kosuge 176, 373 ceramics 176, 521 Kostikas, A., see M. Pissas 176, 227 Housley, R.M., see P.E.D. Morgan 176, 279 Kosuge, M., S. Ikegawa, N. Koshizuka and S. Tanaka, Hall Huang, Z.J., Y.Y. Xue, P.H. Hor and C.W. Chu, A possible new effect and superconducting properties of vortex phase boundary in YBa,Cu;0,_; 176, 195 (Ndos_ xCe,Sro2)2CuO,_5 with T* structure 176, 373 Koyama, T., N. Takezawa and M. Tachiki, Magnetization Idemoto, Y., S. Fujiwara and K. Fueki, High temperature process in layered superconductors under a magnetic field conductivity of 2212 phase of the Bi-Sr-Ca—Cu-O parallel tothe layers 176, 567 superconducting oxide 176, 325 Kumagai, K., see T. Ishida 176, 24 Idink, H., see M. Boekholt 176, 420 Kunzler, J.V.,see P. Pureur 176, 357 Index of authors and papers Kuroumaru, S., see B. Zhao 176, 409 Miura, T., see S. Takeno 176, 151 Kwei, G.H., P.C. Canfield, Z. Fisk, J.D. Thompson and Miyazaki, T.,see Y. Horie 176, 521 R.B. Von Dreele, Structure of the new “1201” lead cuprate Mogro-Campero, A. and L.G. Turner, High quality thin films of superconductor 176, 57 YBa,Cu,O, by post-annealing at low oxygen partial pressure 176, 429 Lay, K.W., see R.H. Arendt 176, 131 Moizhes, B.Ya., see L. Kornblit 176, 295 Li, L.,see B. Zhao 176, 409 Morgan, P.E.D., R.M. Housley, J.R. Porter and J.J. Ratto, Low Li, R., ¥Y. Zhu, Y. Qian and Z. Chen, The preparation and level mobile liquid droplet mechanism allowing structure of a new layered cuprate: TaSr,(NdCe ),Cu,O,, development of large platelets of high-7, ““Bi-2223” phase the Ta analog of the Tl-1222 phase 176, 19 withinaceramic 176,279 Li, S.X., see C.T. Lin 176, 285 Moser, E.K., W.J. Tomasch, P.J. McGinn and J.Z. Liu, Li, T.,see P. McGinn 176, 203 Microwave magneto-dissipation in crystalline YBa,Cu3;0,¢, . Li, Y.-M., see Y.-R. Li 176, 477 and Bi,Sr,CaCu,0, 176, 235 Li, Y.-R., Y.-M. Li and G.-Y. Hong, An analysis of a new Muller, J.,.see G. Triscone 176, 247 superconducting phase in the BiSrCaCuO system 176, 477 Myhra, S., see A. Crossley 176, 106 Liang, W.Y.,see C.T. Lin 176, 285 Lin, C.T., S.X. Li, W. Zhou, A. Mackenzie and W.Y. Liang, Nakamura, S., see T. Ishida 176, 24 Cobalt-doped YBCO single crystals and their accurate Nakamura, S., see S. Takeno 176, 151 characterisation 176, 285 Narukawa, Y., see Y. Sawai 176, 147 Liu, J.Z., see E.K. Moser 176, 235 Nasrazadani, S.,see Y. Xin 176, 179 Liu, J.Z., see J. Shu 176, 503 Naveh, Y., see M. Golosovsky 176, 379 Liu, R.S.,see M.R. Presland 176, 95 Niarchos, D., see M. Pissas 176, 227 Liu, S.H., see R.A. Klemm 176, 189 Niskanen, K., see P. Svedlindh 176, 336 Lopez, J.,see P.-H. Kobrin 176, 121 Nordblad, P., see P. Svedlindh 176, 336 Lundgren, L., see P. Svedlindh 176, 336 Norling, P., see P. Svedlindh 176, 336 Mackenzie, A., see C.T. Lin 176, 285 Oashi, T., see T. Ishida 176, 24 Maeno, Y.,see M. Kato 176, 533 Ohkubo, H., see B. Zhao 176, 409 Maksimov, L.A., see A.F. Barabanov 176, 511 Okui, S., see T. Ishida 176, 24 Mao, H.K., see J.Shu 176, 503 Marcon, R., see L. Dimesso 176, 216 Pagano, R.P., see A.J. Hill 176, 64 Mase, S., see B. Zhao 176, 409 Palmer, S.B., see D.S. Misra 176, 43 Mashtakov, O.Yu., see V.V. Kabanov 176, 559 Pan, M.-H. and M. Greenblatt, The relationship of oxygen Massidda, S., J. Yu, K.T. Park and A.J. Freeman, Normal state content and 7, in Tlo ;Pbp. ;Sr2CuO5+5 176, 80 transport properties of YBa,Cu,O,7 and YBa ,Cu,O¢g Parise, J.B., see C.C. Torardi 176, 347 superconductors; predictions and comparison with Park, K.T., see S. Massidda_ 176, 159 experiments 176, 159 Patlagan, L., see B. Fisher 176, 75 Maza, J., see F. Miguélez 176, 49 Pissas, M., A. Simopoulos, A. Kostikas and D. Niarchos, McCarron, E.M., see C.C. Torardi 176, 347 Mossbauer studies of the series Bi,_ ,Pb,Sr,Bi,_ ;Fe,,O,, for McGinn, P., N. Zhu, W. Chen, S. Sengupta and T. Li, x=0.5, l andn«,3 176, 227 Microstructure and critical current density of zone melt Plakida, N.M., see T. Galbaatar 176, 496 textured YBa,Cu,0,,, with Y,BaCuO, additions 176, Porter, J.R., see P.E.D. Morgan 176, 279 203 Presland, M.R., J.L. Tallon, R.G. Buckley, R.S. Liu and McGinn, P.J.,see E.K. Moser 176, 235 N.E. Flower, General trends in oxygen stoichiometry effects Melis, A.F.J., see P.E. Mijnarends 176, 113 on 7, in Biand Tl superconductors 176, 95 Menovsky, A.A., see P.E. Mijnarends 176, 113 Pureur, P., J. Schaf, M.A. Gusm4o and J.V. Kunzler, Resistive Miguélez, F., J. Maza and F. Vidal, Low-frequency AC electrical transition and fluctuations of the conductivity in resistivity of granular Y,Ba,Cu,;0;,_;compounds' 176, 49 Y Ba,Cu;0,7, EuBa,Cu,0,; and GdBa,Cu,;0, Mijnarends, P.E., A.F.J. Melis, A.W. Weeber, A.A. Menovsky superconductors. Effect of inhomogeneities 176, 357 and K. Kadowaki, Positron annihilation 2D-ACAR measurements in the incommensurately modulated high-7, Qi, M. and J.H. Wang, Enhancement oft he critical current of superconductor Bi,Sr,CaCu,Og,, 176, 113 AggT1,Ba>Ca,Cu30,9 by compressive reorientation 176, Minami, F.,see T. Honma_ 176, 209 38 Minami, F.,see T. Watanabe 176, 274 Qian, Y.,seeR. Li 176, 19 Misra, D.S. and S.B. Palmer, Laser ablated thin films of Qiu, X., see B. Zhao 176, 409 Y ,Ba,Cu,;0O,_: the nature and origin oft he particulates 176, 43 Raffy, H., see M. Golosovsky 176, 379 600 Index of authors and papers Rajagopal, A.K., see P.P. Divakaran 176, 457 Tallon, J.L., see M.R. Presland 176, 95 Ramanujachary, K.V.,seeH.T. Shih 176, 87 Tallon, J.L., Time-dependent charge transfer and the Ratto, J.J.,see P.E.D. Morgan 176, 279 superconducting phase diagram for YBa,Cu3;07_; 176, Rentschler, T. and S. Kemmler-Sack, Superconducting 547 properties of ceramics in the 2212 system Tanaka, I., see B. Janossy 176,517 Biy_ wPb,Sr2_ ~<Ca;_,Nd,+4,Cu20g4,- 176, 445 Tanaka, J., M. Shimada, M. Shimizu and Y. Tanaka, Pair Rezchikov, K.B., see A.V. Bazhenov 176, 35 potentials of cuprate superconductors 176, 170 Rossel, C., see P. Svedlindh 176, 336 Tanaka, S., see M. Kosuge 176, 373 Tanaka, Y.,see J. Tanaka 176, 170 Sagoi, M., see S. Takeno 176, 151 Testa, A.M., see L. Dimesso 176, 216 Salamon, M.B.,see F. Zuo 176, 541 Thompson, J.D., see G.H. Kwei 176, 57 Sato, S.,see T. Watanabe 176, 274 Tkaczyk, J.E.,see R.H. Arendt 176, 131 Sawai, Y., K. Ishizaka, M. Takata and Y. Narukawa, Stability Tomasch, W.J., see E.K. Moser 176, 235 of YBa,Cu,;0,, Y,Ba,Cu7O,, and YBa,Cu,O,g Torardi, C.C., EM. McCarron, P.L. Gai, J.B. Parise, superconductors under varying oxygen partial pressure, total J. Ghoroghchian, D.B. Kang, M.-H. Whangbo and gas pressure and temperature 176, 147 J.C. Barry, Lead-doped Bi,Sr,CuO,: a superconductor free Schaf, J.,see P. Pureur 176, 357 of modulation and superstructure 176, 347 Schieber, M., see M. Golosovsky 176, 379 Triscone, G., J.-Y. Genoud, T. Graf, A. Junod and J. Muller, Schleger, P., W.N. Hardy and B.X. Yang, Thermodynamics of Variation of the superconducting properties of oxygen in Y,Ba,Cu;O, between 450°C and 650°C 176, Bi,Sr,CaCu,O,,, with oxygen content 176, 247 261 Turner, L.G., see A. Mogro-Campero 176, 429 Sengupta, S.,see P. McGinn 176, 203 Sheng, Z.Z., see Y. Xin 176, 179 Van der Marel, D., H.-U. Habermeier, D. Heitmann, W. K6nig Shibata, H., see K. Kinoshita 176, 433 and A. Wittlin, Infrared study of the superconducting phase Shih, H.T., K.V. Ramanujachary and M. Greenblatt, Structural transition in YBa,Cu;0,_, 176, | and transport properties of Bi,Sr,_ ,.M,CuO,.5 (M=Bi and Van Tendeloo, G. and S. Amelinckx, Long-period shear Pb) 176,87 structure in oxygen deficient La,CuO,_5 176, 575 Shimada, M., see J. Tanaka 176, 170 Vidal, F., see F. Miguélez 176, 49 Shimizu, M., see J. Tanaka 176, 170 Von Dreele, R.B., see G.H. Kwei 176, 57 Shu, J., J. Akella, J.Z. Liu, H.K. Mao and L.W. Finger, High Voronin, G.F. and S.A. Degterov, Thermodynamics of pressure DAC studies on undoped La,CuO, 176, 503 superconducting phases in the Y-Ba—Cu-O system 176, Silva, E.,see L. Dimesso 176, 216 387 Simopoulos, A., see M. Pissas 176, 227 Vujicic, G.M., see T. Galbaatar 176, 496 Smilga, V.P., see V.I. Fesenko 176, 551 Srivastava, C.M., Theory of the normal state of Cu-O high Wang, J.H., see M. Qi_ 176, 38 temperature superconductors 176, 481 Wang, X.Z. and D. Bauerle, High-7, superconductivity in Staines, M.P., see M.E. Ziaei 176, 242 GdBaSrCu,0, 176, 507 Subramanian, S., see C.S. Gopinath 176, 331 Watanabe, T., T. Takahashi, S. Suzuki, S. Sato, H.K atayama- Suzuki, S.,see T. Watanabe 176, 274 Yoshida, A. Yamanaka, F. Minami and S. Takekawa, Angle- Svedlindh, P., C. Rossel, K. Niskanen, P. Norling, P. Nordblad, resolved inverse photoemission study of Bi,Sr,CaCu,Og. L. Lundgren and G.V. Chandrashekhar, Non-logarithmic Existence of two CuO, bands across the Fermi level 176, magnetic relaxation in Bi; Sr, ;CaCuOs single crystals; 274 evidence for collective flux pinning 176, 336 Weeber, A.W., see P.E. Mijnarends 176, 113 Weeks, D.E., W. Kiehl, C. Dong and A.M. Hermann, Tachiki, M., see T. Koyama 176, 567 Thermopower of T1,Ba,CuO,_ , bulk Takahashi, T.,see T. Ishida 176, 24 superconductors 176, 368 Takahashi, T., see T. Watanabe 176, 274 Whangbo, M.-H., see C.C. Torardi 176, 347 Takano, M., M. Azuma, Z. Hiroi, Y. Bando and Y. Takeda, Wittlin, A., see D. van der Marel 176, 1 Superconductivity in the Ba-Sr-Cu-O system 176, 441 Woermann, E., see M. Boekholt 176, 420 Takata, M., see Y. Sawai 176, 147 Takeda, Y.,see M. Takano’ 176, 441 Xin, Y., Z.Z. Sheng and S. Nasrazadani, Comparison of Pb, Takekawa, S.,see T. Honma 176, 209 Pb-Sb, Pb-V, Pb—Mo and Pb-W substituted Bi-Sr-Ca—Cu- Takekawa, S.,see T. Watanabe 176, 274 O 176,179 Takeno, S., S. Nakamura, M. Sagoi and T. Miura, Defect Xu, P., see B. Zhao 176, 409 structure study of YBa,Cu,;O,_ , epitaxial thin films on Xue, Y.Y., see Z.J. Huang 176, 195 SrTi03;(100) and (110) substrates 176, 151 Takezawa, N., see T. Koyama _ 176, 567 Yamada, T., see K. Kinoshita 176, 433 Index of authors and papers Yamanaka, A., see T. Watanabe 176, 274 oriented epitaxial YBa,Cu3O, thin film 176, 409 Yamaya, K., see T. Honma _ 176, 209 Zhao, Y., see B. Zhao 176, 409 Yanada, E., see B. Zhao 176, 409 Zhou, W., see C.T. Lin 176, 285 Yang, B.X., see P. Schleger 176, 261 Zhu, N., see P. McGinn 176, 203 Yang, F.-A., see J.W. Chen 176, 257 Zhu, Y.,seeR. Li 176, 19 Youssef, A.A.A., see Y. Horie 176, 521 Ziaei, M.E., B.P. Clayman, R.G. Buckley and M.P. Staines, The Yu, J., see S. Massidda 176, 159 far-infrared response of the ceramic high temperature superconductor YBa,Cu,O, 176, 242 Zhang, Y., see B. Zhao 176, 409 Zuo, F., M.B. Salamon, T. Datta, K. Ghiron, H. Duan and Zhao, B., S. Kuroumaru, Y. Horie, E. Yanada, T. Aomine, A.M. Hermann, Forward and reverse flux creep in single X. Qiu, Y. Zhang, Y. Zhao, P. Xu, L. Li, H.O hkubo and crystal Tl,Ca,BaCu,O, superconductors 176, 541 S. Mase, Anisotropy of J, H.. and flux pinning in c-axis Physica C 176 (1991) 603-604 North-Holland Analytic Subject Index to Volume 176 AC susceptibility of Flux pinning 195, 235, 336, 409, 517, NMR 485 superconductors 137, 285 521 Normal-state properties 1, 49, 159, 295, Angle-resolved photoemission 274 325, 481 Anharmonicity 496 Ginzburg-Landau theory 551, 567 -of Tl,Ba,CuO,_, 368 Anisotropic superconductor 35, 189, Glassy state 336, 541 NQR 24 235, 242, 409, 485, 517, 551 Grain alignment (texturing) 131, 203, Antiferromagnetic order 533,559 216 Optical absorption 1 Applications of high-7, Granular superconductivity 357 Optical reflectivity 35 superconductors 38 O-T transition 387,503 Halleffect 24, 159, 209, 373 Oxygen stoichiometry 57, 80, 95, 247, Band structure 35,274 Harmonic generation 379 261, 325, 433, 445 -of Bi,_ .Pb,Sr,CuO, 347 High pressure effect 503 -in Bi-Sr-Ca-—Cu-O 477 Bipolaronic superconductivity 511 High pressure synthesis -in YBa,Cu;0,_5 547 -of Ba-Sr-—Cu-O 441 Oxygen thermodynamics 261 Carrier concentration 95, 209, 325 Hole concentration 247 -in YBa,Cu;0,_5 547 Hole motion 559 Penetration depth 121 Coherence lengthé 373 HREM 151, 575 Phase diagram 95, 147, 261, 387 Complex conductivity 121 Hubbard Hamiltonian 511 -of Bi,Sr,CaCu,0,,, 247 Coulomb interaction 511 Phonon mechanism 170, 496 Critical current density 38, 131,216, Infrared spectroscopy 1, 35, 170 Phonon spectrum 242 409 Interlayer pairing 189,511 Positron annihilation 64, 113 -in YBa,Cu;0,_5 203 Isotope effect 496 Projectively free electrons 457 Critical state model 300 Cu-O chains 261, 547 Lattice dynamics 106 Raman scattering 106, 420 Cu-O planes 511,559 Lattice parameters 19, 87, 420, 433 Cu-valence 481 -in La3Ba3Ca,Cug4,0, 451 Scanning electron microscopy 179 -of Bi,_,Pb,Sr,CuO, 347 Structural phase transition 261, 441 Defect structures 151,575 Liquid droplet mechanism 279 Structure Degradation Localization 75 -of Bi, gPbo 4Sr2Caz2Cu30;9 331 -in Bi,Sr,CaCu,0, 106 Lower critical field H,, 373 -of Bi,Sr,_,M,CuO.+5 (M=Bi and Pb) 87 Electrical resistivity 49, 75, 159, 209, Magnetic order -of 257, 325, 357, 445, 507 -in Bi,_,Pb,Sr,Bi,_,Fe,O, 227 Bi2_ Pb, Sr2_ ,Ca,_,Nd,4,Cu,0g+- Electronic structure 35, 274, 331,559 Magnetic relaxation 195, 541 -of Bi,_,Pb,Sr2Bi,_,Fe,O, 227 -of Bi,Sr,CaCu,O03g,5 113 -in Biz »Sr, 7CaCu,0, 336 -of Bi,_ ,.Pb,Sr,CaCu,0g,5 420 Electron microscopy 43, 441 Magnetic susceptibility 137,247,257 -of Bi,_ ,.Pb,Sr,CuO, 347 Electron—phonon coupling 159, 481, 496 -of Bi,Sr,CaCu,0¢g +6 24 —of Bi-Pb—M-Sr—Ca-—Cu-O, Eliashberg equation 170 -—of (La,Sr),NiO, 533 M=Pb,Sb,V,Mo,W_ 179 Energy gap _1, 189, 242 Magnetization 203, 517, 567 -—of Bi-Pb-Sr—Ca-—Cu-O (thin ESR 24 Meissner effect 247 films) 216 Excitonic mechanism 170 Microwave absorption 235 -of Bi-Sr-Ca-—Cu-O 95,477 Microwave transmission 379 -of GdBaSrCu;0, 507 Far-infrared spectra 242 Mixed state 137,551, 567 —of La, gsCa; ;5Cu2O0¢45 433 Fermi liquid corrections 485 Modulated structures 113 -of La,CuO, 503 Fermi surface 274 MOssbauer spectroscopy 227 -of La,CuO,4,_5 575 Fluctuation effects 357 Multilayers 457, 567 -of La;Ba3;Ca,Cu,,,O, 451 Fluxcreep 137, 409, 521, 541 Muon spin rotation 551 -of (Pb,Cu)(Sr,La),CuO;_5; 57 Flux dynamics 195, 541 -of TaSr,(NdCe),Cu,0, 19 Flux penetration 300 Neutron diffraction 57 -of Tlo 5Pbp ;Sr2CuOs5+5 80 604 Analytic subject index -of Tl-Ba-Sr-—Ca-—Cu-O 95 -of Bi,_,Pb,Sr,CuO, 347 -—of PrBa,Cu;0,_5; 75 -of Y,Ba,yCug4,0144, 387 -of Bi-Pb—-M-Sr-—Ca-Cu-O, -of Y,Ba,Cu;0,_5; 43 -of YBa,Cu;_,Co,07_, 285 M=Pb,Sb,V,Mo,W_ 179 -of YBa,Cu;0, 429 Substitution effects -of Bi-Pb-Sr-—Ca-—Cu-O 279 -of YBa,Cu;0;_5 121 -in -of GdBaSrCu,0, 507 -of YBaCu;0,_, 151 Bi,_,,Pb,,Sr2_,Ca,_yNd,4,Cu,0g4- 445-of TaSr.(NdCe)2Cu,0, 19 Tunneling spectroscopy -in Bi-Sr-Ca-—Cu-O 477 -of Tlo.5Pbo.5Sr2CuO;+5 80 Two-band model 209 —in La, gsCep ;sCu,;_,Ag,O4_5 257 -of YBa,Cu;O, (thin films) 429 -in (Pb,Cu)(Sr,La),CuO;_5 57 -of YBa,Cu3_,Co,O7_, 285 Ultrasound attenuation 521 Surface impedance 121 -of Y-Ba-Cu-O 147 Ultrasound velocity 521 Synthesis Upper critical field H.. 257, 373 -of AggT1,Ba,Ca,Cu;0;9 38 Thermal conductivity 295 -of (Bi,Pb)>»Ca,Sr,Cu,0, 126, 131 Thermodynamic properties 387 Weak links 379 -of Bi,Sr,_ .M,CuO,+5 (M=Bi and Thermoelectric effects 295 Pb) 87 -in Tl,Ba,CuO,_, 368 XPS 331 -of Bi,_,Pb,Sr,CaCu,0g,5 420 Thin films 216,379 Physica C 176 (1991) 605 North-Holland Materials Index to Volume 176 AggT1,Ba,Ca,Cu;0;9 -synthesis 347 -thin films 75 -synthesis 38 Bi-Pb—M-Sr-—Ca-Cu-O, -structure 179 TaSr2(NdCe).Cu,0, Ba-Sr-—Cu-O -synthesis 179 -structure 19 —high pressure synthesis 441 Bi-Pb-Sr—Ca—Cu-O -synthesis 19 (Bi,Pb ),Ca,Sr,Cu,0, -structure 216 T]o.sPbo,sSr2CuOs + 5 -synthesis 126, 131 -synthesis 279 -structure 80 Bi; gPbo.4Sr2Ca2 2>Cu3;0j9 Bi-Sr—Ca—Cu-O -synthesis 80 -structure 331 —oxygen stoichiometry 477 T1,Ba,CuO,_ . Bi, 2Sr, 7CaCu,O0g -structure 95,477 —normal-state properties 368 —magnetic relaxation 336 —substitution effects 477 —-thermoelectric effects 368 Tl-Ba-Sr—Ca—Cu-O Bi,Sr,CaCu,O, -degradation 106 GdBaSrCu 307 -structure 95 -structure 507 Bi,Sr,CaCu,Og,5 -electronic structure 113 -synthesis 507 Y ,Ba,Cu;03_; —magnetic susceptibility 24 -thin films 43 Bi,Sr,CaCu,Og, , (La,Sr) NiO, Y2BagCug+ ,O144n -phase diagram 247 —magnetic susceptibility 533 -structure 387 Bi,Sr2_,.M,CuO¢+5 La, gsCa; .1sCu206+5 YBa,Cu,0, -structure 87 -structure 433 -synthesis 429 -synthesis 87 La, gsCeo,;sCu; _,AZ.O4_5 -thin films 429 Bi,_,,Pb,,Sr2_,Ca;_,Nd,4,Cu20.4- —substitution effects 257 YBa,Cu,;07_;5 -structure 445 La,CuO, -carrier concentration 547 -substitution effects 445 -structure 503 —critical current density 203 Bi._ ,Pb,Sr2Bi,_ ,Fe,O, La,CuO,_5 —oxygen stoichiometry 547 —magnetic order 227 -structure 575 -thin films 121 -structure 227 La3;Ba3Ca,Cu,+,O0, YBa,Cu3_,Co,O7_, Bi, _xPb,Sr2,CaCu Og, 5 -lattice parameters 451 -structure 285 -structure 420 -structure 451 -synthesis 285 -synthesis 420 YBaCu,;07_, Bi,_ ,Pb,Sr,CuO, (Pb,Cu ) (Sr,La),CuOs_ 5 -thin films 151 —-band structure 347 -structure 57 Y-Ba-Cu-O -lattice parameters 347 -substitution effects 57 -synthesis 147 -structure 347 PrBa,Cu;07_5

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