Physica C. Superconductivity 1992: Vol 198 Index PDF
Preview Physica C. Superconductivity 1992: Vol 198 Index
PHYSICA |: Physica C 198 (1992) 397-400 North-Holland Author Index to Volume 198 Alexandrov, A.S. and J. Ranninger, Photoemission H. v. Léhneysen, The “90 K” plateau of oxygen deficient spectroscopy of the superconducting and normal state for YBa,Cu,0,_; single crystals 198, 42 polaronic systems 198, 360 Cohen, M.L., see N. Kijima 198, 309 Amano, J.,see A. Tsukamoto 198, 355 Corkill, J.L., see N. Kijima 198, 309 Angel, R.J.,see R.S. Liu 198, 203 Coulter, J.Y.,see K.V. Salazar 198, 303 Aoki, H., S. Uji, T. Shimizu and Y. Onuki, dHvA effect of Nb Crété, D.G., see B. Ghyselen 198, 215 in low fields down to H,,. Comment on the dHVA effect in the superconducting mixed state 198, 323 Dance, J.M., A. Tressaud, B. Chevalier, C. Brisson and J. Etourneau, ESR study of La,CuO,-derived Baggio Saitovitch, E., see D.E. Ellis 198, 57 superconductors treated under halogen gas 198, 185 Bagratashvili, V.,see A. Zherikhin 198, 341 De la Fuente, G.F., see E. Snoeck 198, 129 Barber, Z.H., see B. Ghyselen 198, 215 De Leeuw, D.M., see J.J. Scholtz 198, 231 Bauminger, E.R., see I. Felner 198, 14 Drillon, M., see A. Tighezza 198, 209 Behner, H.,see W. Rauch 198, 389 Dye, R.C., see K.V. Salazar 198, 303 Ben Assayag, G., see B. Ghyselen 198, 215 Blanchin, M.G., see Y. Yan 198, 147 Edelman, H.S., see A. Umezawa_ 198, 261 Blander, M., see M. Tetenbaum 198, 109 Edwards, P.P., see R.S. Liu 198, 203 Boekholt, M., Th. Bollmeier, L.B uschmann, M. Fleuster and Edwards, P.P.,see R. Liu 198, 318 G. Giintherodt, Structural and superconducting properties Ehmann, A., S. Kemmler-Sack, S. Lésch, M. Schlichenmaier, of Bi,Sr,Ca(Cu,_,Co,)20g45 single crystals 198, 33 W. Wischert, P. Zoller, T. Nissel and R.P. Huebener, New Bollmeier, Th., see M. Boekholt 198, 33 family of superconducting copper oxides. Bi cuprates of type Brauchle, G., seeH. Claus 198, 42 1212 198, 1 Braun, M.,seeH. Claus 198, 42 Eick, H.A., see E. Hodorowicz 198, 19 Brisson, C., see J.M. Dance 198, 185 El-Abbar, A.A., P.J. King, K.J. Maxwell, J.R. Owers-Bradley Brown, D.L., see M. Tetenbaum 198, 109 and W.B. Roys, The irreversibility line in polycrystalline Burimov, V., see A. Zherikhin 198, 341 YBa,Cu,;0O; superconductors with Y,BaCuO, Buschmann, L., see M. Boekholt 198, 33 inclusions 198, 81 Eliashberg, G.M., see S.I. Vedeneev 198, 47 Cabanel, R., see B. Ghyselen 198, 215 Ellis, D.E., E. Baggio Saitovitch and D.J. Lam, Hyperfine Carlos, W.E., R. Kaplan, D.H. Lowndes and D.P. Norton, interactions in iron substituted high-7, superconducting Microwave properties of YBa,Cu,07_5/PrBa,Cu,0;_+; oxides 198, 57 superlattices 198, 247 Erb, A., see H. Claus 198, 42 Cava, R.J., H.W. Zandbergen, J.J. Krajewski, W.F. Peck Jr., Etourneau, J.,.seeJ.M. Dance 198, 185 B. Hessen, R.B. Van Dover and S.-W. Cheong, Evetts, J.E., see B. Ghyselen 198, 215 Sr,(Nd,Ce),MCu,0,, M=Al, Co, Ga. A new layered copper oxide structure type 198, 27 Felner, I., U. Yaron, I. Nowik and E.R. Bauminger, New Chaddah, P., see S.B. Roy 198, 383 magnetic phases in the La-Sr-Cu-O system 198, 14 Chen, B.-J., M.A. Rodriguez, $.T. Misture and R.L. Snyder, Feng, H.H., see Q. Xiong 198, 70 Direct observation of textured YBa,Cu,;0,_,; crystal growth Feng, Y., see A. Umezawa 198, 261 from the melt 198,118 Fleshler, S.,see A.U mezawa_ 198, 261 Chen, S.K., see S. Jin 198, 333 Fleuster, M., see M. Boekholt 198, 33 Cheong, S.-W., see R.J. Cava 198, 27 Fox, F., see W. Rauch 198, 389 Chevalier, B., see J.M. Dance 198, 185 Freyhardt, H.C., see M. Ullrich 198, 181 Christen, D.K., see H.R. Kerchner 198, 75 Fujiwara, Y.,see Y. Ueda 198, 237 Chu, C.W., see Q. Xiong 198, 70 Fukuda, Y., see D. Pooke 198, 349 Chu, J.W., see Q. Xiong 198, 70 Funahashi, S., see Y. Miyazaki 198, 7 Chu, W.K., see Y.J. Zhao 198, 256 Cichorek, T., see Z. Henkie 198, 162 Gaponov, S.V., see O.I. Lebedev 198, 278 Claus, H., M. Braun, A. Erb, K. Réhberg, B. Runtsch, H. Wiihl, Ghyselen, B., R. Cabanel, S. Tyc, D.G. Crété, Z.H. Barber, G. Brauchle, P. Schweib, G. Miiller-Vogt and J.E. Evetts, G. Ben Assayag, J. Gierak and A. Schuhl, 398 Index of authors and papers YBaCuO/normal metal/YBaCuO proximity effect Kajitani, T., see Y. Miyazaki 198, 7 junctions 198, 215 Kammlott, G.W., see S. Jin 198, 333 Gierak, J.,see B. Ghyselen 198, 215 Kaplan, R., see W.E. Carlos 198, 247 Gieres, G., see W. Rauch 198, 389 Kawai, S.,see T. Matsumoto 198, 273 Gornik, E., see W. Rauch 198, 389 Kawai, T., see T. Matsumoto 198, 273 Griessen, R., see J.J. Scholtz 198, 231 Kemmler-Sack, S.,see A. Ehmann 198, | Grigoryan, L.S., R. Kumar, S.K. Malik, R. Vijayaraghavan and Kemmler-Sack, S., see M. Schlichenmaier 198, 175 A.R. Harutyunyan, Effect of benzene intercalation on Kerchner, H.R., D.K. Christen, C.E. Klabunde, J.O. Thomson, magnetization of Bi-oxides 198, 137 Y.R. Sun and J.R. Thompson, Evidence of Kosterlitz— Gronsky, R., see N. Kijima 198, 309 Thouless transition in YBa,Cu,0;/PrBa,Cu,O, superlattice Giintherodt, G., see M. Boekholt 198, 33 films 198, 75 Kijima, N., R. Gronsky, X.-D. Xiang, W.A. Vareka, J. Hou, Hackwell, T.P., see R.S. Liu 198, 203 A. Zettl, J.L. Corkill and M.L. Cohen, Structural properties Hamet, J.F., B. Mercey, M. Hervieu, G. Poullain and of stage-1 iodine-intercalated superconducting I ( Big 9:5, B. Raveau, ta-Axis oriented superconductive YBCO thin Pbo.08s )2(Sto.93, Pbo.07)2(Cao.965, Pbo.035)2Cu30, 198, 309 films. Growth mechanism on MgO substrate 198, 293 King, P.J.,see A.A. El-Abbar 198, 81 Harutyunyan, A.R., see L.S. Grigoryan 198, 137 Kiselev, N.A., see O.I1. Lebedev 198, 278 Hayashi, A., see Y. Ueda 198, 237 Kishio, K., see D. Pooke 198, 349 Heinemann, K., see M. Ullrich 198, 181 Kitahama, K., see T. Matsumoto 198, 273 Hellstrom, E.E., see A. Umezawa_ 198, 261 Kitazawa, K., see D. Pooke 198, 349 Henkie, Z., T. Cichorek, R. Horyn and A. Wojakowski, The Klabunde, C.E., see H.R. Kerchner 198, 75 effect of isoelectronic cation substitution and deoxygenation Kodas, T.T., see K.V. Salazar 198, 303 of BigSrg_ Cag, ,CugOQ334 ¢_5 superconductors on the Koga, T., see D. Pooke 198, 349 thermopower and resistivity 198, 162 Koshelev, A.E., Numerical simulation of thermal depinning for Hervieu, M., see J.F. Hamet 198, 293 a two-dimensional vortex system 198, 371 Hessen, B., see R.J. Cava 198, 27 Krajewski, J.J.,see R.J. Cava 198, 27 High, Y.E., see A. Umezawa_ 198, 261 Kresin, V.Z. and S.A. Wolf, Induced superconductivity and Himmerich, B., see M. Mittag 198, 222 gapless state in YBa,Cu,07,_, 198, 328 Hiraga, K., see Y. Miyazaki 198, 7 Kumar, R., see L.S. Grigoryan 198, 137 Hirai, T., see Y. Miyazaki 198, 7 Kumar, S., see S.B. Roy 198, 383 Hirai, T., see Y. Miyazaki 198, 53 Kundrotas, P.J., see V.E. Zubkus 198, 141 Hiratani, M., see A. Tsukamoto 198, 355 Hodorowicz, E., S.A. Hodorowicz and H.A. Eick, The Ln—Ba- Lam, D.J., see D.E. Ellis 198, 57 Cu “184” oxide phase. Characterization, synthesis Larbalestier, D.C., see A. Umezawa_ 198, 261 mechanism, and solid solubility limits in air for selected Larrea, A., see E. Snoeck 198, 129 Ln 198, 19 Lebedev, O.I., A.L. Vasiliev, N.A. Kiselev, L.A. Mazo, Hodorowicz, S.A., see E. Hodorowicz 198, 19 S.V. Gaponov, D.G. Paveliev and M.D. Strikovsky, Hor, P.H., see Q. Xiong 198, 70 Microstructure of edge-type Josephson junction with Horyn, R., see Z. Henkie 198, 162 PrBa,Cu,0,_, barrierlayer 198, 278 Hou, J.,see N. Kijima 198, 309 Liu, J.R., see Y.J. Zhao 198, 256 Hu, S.F.,see R. Liu 198, 318 Liu, R., S.F. Hu, D.A. Jefferson and P.P. Edwards, Huang, Y., see E. Snoeck 198, 129 Superconductivity at 124 K in (T1,Pb)Sr,Ca,Cu,0, 198, Huang, Y.T., see M.-J. Tsai 198, 125 318 Hubbard, K.M., see K.V. Salazar 198, 303 Liu, R.S., S.D. Hughes, R.J. Angel, T.P. Hackwell, Huber, J.G., see A.R. Moodenbaugh 198, 103 A.P. Mackenzie and P.P. Edwards, Crystal structure and Huebener, R.P.,see A. Ehmann 198, | cation stoichiometry of superconducting T1,Ba,CuO,, 5 Hughes, S.D., see R.S. Liu 198, 203 single crystals 198, 203 Loktev, V.M., see M.A. Ivanov 198, 171 Ivanov, M.A., Y.G. Pogorelov and V.M. Loktev, Magnetic Lésch, S.,see A. Ehmann = 198, | centres from excess oxygen in Yba,Cu,0,,, 198, 171 Lowndes, D.H., see W.E. Carlos 198, 247 Lu, S.W., see M.-J. Tsai 198, 125 Jansen, A.G.M., see S.I. Vedeneev 198, 47 Jefferson, D.A., see R. Liu 198, 318 Mackenzie, A.P.,see R.S. Liu 198, 203 Jin, S.,G.W. Kammlott, T.H. Tiefel and S.K. Chen, Formation Malik, S.K., see L.S. Grigoryan 198, 137 of layered microstructure in the Y-Ba—Cu-O and Bi-Sr- Matsuishi, K., seeQ. Xiong 198, 70 Ca-Cu-O superconductors 198, 333 Matsumoto, T., T. Kawai, K. Kitahama and S. Kawai, Tunneling spectra of a Bi,Sr,CaCu,O, single crystal with Index of authors and papers well defined Bi,Sr,CuO, artificial barrier 198, 273 Rehspringer, J.L., see A. Tighezza 198, 209 Maxwell, K.J.,see A.A. El-Abbar 198, 81 Rodriguez, M.A., see B.-J. Chen 198, 118 Mazo, L.A., see O.I. Lebedev 198, 278 RGhberg, K.,see H. Claus 198, 42 Meng, R.L., see Y.J. Zhao 198, 256 Rosenberg, M., see M. Mittag 198, 222 Mercey, B., see J.F. Hamet 198, 293 Rossoni, P.G., see S.R. Su 198, 95 Meshkov, S.V., see S.I. Vedeneev 198, 47 Roucau, C., see E. Snoeck 198, 129 Misture, S.T., see B.-J. Chen 198, 118 Roy, S.B., S. Kumar, P. Chaddah, R. Prasad and N.C. Soni, Mittag, M., M. Rosenberg, A.V. Niculescu, B. Himmerich and Magnetic field dependence of the harmonic generation in H. Sabrowsky, Study of magnetic relaxation processes in sintered pellets of YBaCuO. The history effects 198, 383 ceramic Tl-2223 high-7, superconductors 198, 222 Roys, W.B., see A.A. El-Abbar 198, 81 Miyazaki, Y., H. Yamane, N. Ohnishi, T. Kajitani, K. Hiraga, Runtsch, B., seeH. Claus 198, 42 Y. Morii, S. Funahashi and T. Hirai, The crystal structure of (Co.4Cuo.6)St2(Yo.s6Sto.14)Cu20, 198, 7 Sabatini, R.L., see A.R. Moodenbaugh 198, 103 Miyazaki, Y., H. Yamane and T. Hirai, Preparation of a new Sabrowsky, H., see M. Mittag 198, 222 compound, Y> 0Sts.oCu¢.0Co.9O016.2 198, 53 Salazar, K.V., K.C. Ott, R.C. Dye, K.M. Hubbard, Moodenbaugh, A.R., R.L. Sabatini, Y. Xu, J. Ochab and E.J. Peterson, J.Y. Coulter and T.T. Kodas, Aerosol assisted J.G. Huber, Solubility of Ca in superconducting chemical vapor deposition of superconducting La,_,Ca,CuO, 198, 103 YBa,Cu;,0;_, 198, 303 Morii, Y., see Y. Miyazaki 198,7 Samuely, P., see S.I. Vedeneev 198, 47 Miiller, D., see M. Ullrich 198, 181 Sanada, N., see D. Pooke 198, 349 Miiller-Vogt, G., see H. Claus 198, 42 Schlichenmaier, M., see A. Ehmann 198, | Schlichenmaier, M. and S. Kemmler-Sack, Ar preparation of Pb Nagoshi, M., see D. Pooke 198, 349 rich 2212 superconductors in the BPSCCO system 198, Niculescu, A.V., see M. Mittag 198, 222 175 Niel, L., see M. Ullrich 198, 181 Scholtz, J.J., E.N. van Eenige, R.J. Wijngaarden, R. Griessen Nissel, T.,.see A. Ehmann 198, | and D.M. de Leeuw, Pressure dependence of 7, and H,, of Norton, D.P., see W.E. Carlos 198, 247 CaLaBaCu,;0, upto 50 GPa _ 198, 231 Nowik, I., see I. Felner 198, 14 Schuhl, A., see B. Ghyselen 198, 215 Schweib, P.,seeH. Claus 198, 42 Ochab, J., see A.R. Moodenbaugh 198, 103 Shibutani, K., see Y. Ueda 198, 237 O’Connor, M., see S.R. Su 198, 95 Shimizu, T., see H. Aoki 198, 323 Ogawa, R., see Y. Ueda 198, 237 Shubnii, G., see A. Zherikhin 198, 341 Ohnishi, N., see Y. Miyazaki 198, 7 Snoeck, E., A. Larrea, C. Roucau, G.F. de la Fuente and Ono, A., High-pressure synthesis of perovskite-derived Y. Huang, Microstructure of (Bi,Pb )—Sr—Ca—Cu-O fibres. compounds in the Sr-Y-—Cu-O system 198, 287 Study by electron microscopy 198, 129 Onuki, Y., see H. Aoki 198, 323 Snyder, R.L., see B.-J. Chen 198, 118 Ott, K.C., see K.V. Salazar 198, 303 Sobol, E., see A. Zherikhin 198, 341 Owers-Bradley, J.R., see A.A. El-Abbar 198, 81 Sélkner, G., see W. Rauch 198, 389 Soni, N.C., see S.B. Roy 198, 383 Parfionov, O.E., see V.E. Zubkus 198, 141 Strikovsky, M.D., see O.I. Lebedev 198, 278 Paveliev, D.G., see O.I. Lebedev 198, 278 Su, S.R., M. O’Connor and P.G. Rossoni, Synthesis of the 110 Peck Jr., W.F., see R.J. Cava 198, 27 K phase (BiPb),Sr,Ca,Cu,O, material by a seeding Peterson, E.J.,see K.V. Salazar 198, 303 Pogorelov, Y.G.,see M.A. Ivanov 198, 171 technique 198, 95 Pooke, D., K. Kishio, T. Koga, Y. Fukuda, N. Sanada, Sun, Y.R.,see H.R. Kerchner 198, 75 M. Nagoshi, K. Kitazawa and K. Yamafuji, Charge transfer Sun, Y.Y., see Q. Xiong 198, 70 associated with iodine intercalation in Bi,Sr,Ca,_ ,Cu,,O,, Sung, Y.S., see A. Umezawa_ 198, 261 n=1-3 198, 349 Sviridov, A., see A. Zherikhin 198, 341 Poullain, G., see J.F. Hamet 198, 293 Prasad, R., see S.B. Roy 198, 383 Tetenbaum, M., P. Tumidajski, D.L. Brown and M. Blander, Some aspects of the thermodynamic behavior of high-7, Ranninger, J.,see A.S. Alexandrov 198, 360 oxide systems via EMF and related measurements 198, Rauch, W., H. Behner, G. Gieres, G. Sélkner, F. Fox, 109 A.A. Valenzuela and E. Gornik, DC-magnetron sputtering of Thompson, J.R., see H.R. Kerchner 198, 75 YBa,Cu,0,_,; thin films for microwave applications 198, Thomson, J.0., see H.R. Kerchner 198, 75 389 Tiefel, T.H., see S. Jin 198, 333 Raveau, B.,see J.F. Hamet 198, 293 Tighezza, A., J.L. Rehspringer and M. Drillon, The oxyfluoride 400 Index of authors and papers Nd,CuO,__,.F,. Influence of synthesis routes on the Wischert, W.,see A. Ehmann 198, 1 superconducting properties 198, 209 Wojakowski, A., see Z. Henkie 198, 162 Tornau, E.E., see V.E. Zubkus 198, 141 Wolf, S.A., see V.Z. Kresin 198, 328 Tressaud, A., see J.M. Dance 198, 185 Wu, S.F., see M.-J. Tsai 198, 125 Tsai, M.-J., S.F. Wu, Y.T. Huang and S.W. Lu, Rapid Wiihl, H., seeH. Claus 198, 42 processing of Tl-Ba—Ca—Cu-O 2223 phase with T7,= 127 Wyder, P., see S.I. Vedeneev 198, 47 K 198, 125 Wysokinski, K.I., “Correlated hopping” model of Tsukamoto, A., M. Hiratani and J. Amano, Partial substitution superconductivity. Effect of impurities 198, 87 of Ba?* for Ho in the Ho, 4 ,Ba,_ CuO, thin films grown at lowtemperature 198, 355 Xiang, X.-D., see N. Kijima 198, 309 Tumidajski, P., see M. Tetenbaum 198, 109 Xiong, Q., Y.Q. Wang, J.W. Chu, Y.Y. Sun, K. Matsuishi, Tyc, S., see B. Ghyselen 198, 215 H.H. Feng, P.H. Hor and C.W. Chu, High-pressure study on Mo-stabilized Sr-based 123 compounds. YSr;CgMuoo 220 , Ueda, Y., Y. Fujiwara, A. Hayashi, K. Shibutani and R. Ogawa, and TbSr,Cu, 7Moo,;0, 198, 70 Structural and superconducting properties of oxygenated Xu, Y., see A.R. Moodenbaugh 198, 103 La2_.M,CuO,,, (M=Sr,Ba;j0sx<0.1) 198, 237 Uji, S., see H. Aoki 198, 323 Yamafuji, K.,see D. Pooke 198, 349 Ullrich, M., D. Miiller, K. Heinemann, L. Niel and Yamane, H., see Y. Miyazaki 198, 7 H.C. Freyhardt, Microsctructure and superconducting Yamane, H., see Y. Miyazaki 198, 53 properties of Bridgman-melt-textured Y,Ba,Cu;0,_; 198, Yan, Y. and M.G. Blanchin, Direct imaging of the oxygen 181 sublattice in thin crystals of orthorhombic YBa,Cu,;07_ , Umezawa, A., Y. Feng, H.S. Edelman, Y.E. High, superconductors observed by HREM at 400 kV 198, 147 D.C. Larbalestier, Y.S. Sung, E.E. Hellstrom and S. Fleshler, Yaron, U., seel. Felner 198, 14 Electromagnetic granularity, critical current density, and low T, phase formation at the grain boundaries in Zandbergen, H.W., see R.J. Cava 198, 27 (Bi,Pb ),Sr,Ca,Cu,O, silver-sheathed tapes 198, 261 Zettl, A., see N. Kijima 198, 309 Zhang, L.-Y. and Y.S. Zhou, On the combination of the Cooper V. Léhneysen, H., seeH. Claus 198, 42 pair and the Ogg pair in the high-7, oxide Valenzuela, A.A.,seeW. Rauch 198, 389 superconductor 198, 378 Van Dover, R.B., see R.J. Cava 198, 27 Zhao, Y.J., J.R. Liu, R.L. Meng and W.K. Chu, Thermal Van Eenige, E.N., see J.J. Scholtz 198, 231 neutron irradiation of °Li doped Y,Ba,Cu,;0,_, and flux Vareka, W.A., see N. Kijima 198, 309 pinningenhancement 198, 256 Vasiliev, A.L., seeO.1. Lebedev 198, 278 Vedeneev, S.I., P. Samuely, S.V. Meshkov, G.M. Eliashberg, Zherikhin, A., V. Bagratashvili, V. Burimov, E. Sobol, A.G.M. Jansen and P. Wyder, Coherent one-particle G. Shubnii and A. Sviridov, The action of powerful laser excitation spectrum and strong-coupling features in the radiation on 1-2-3 superconducting thin films and bulk tunneling conductance with the high-7, superconductor materials 198, 341 Bi,Sr,CaCu,0, 198, 47 Zhou, Y.S., see L.-Y. Zhang 198, 378 Vijayaraghavan, R., see L.S. Grigoryan 198, 137 Zoller, P.,.see A. Ehmann 198, | Zubkus, V.E., O.E. Parfionov, E.E. Tornau and P.J. Kundrotas, Wang, Y.Q., see Q. Xiong 198, 70 Asymmetry of phase diagram and influence of oxygen Wijngaarden, R.J., see J.J. Scholtz 198, 231 ordering on holes pairing in YBa,Cu,0,,, 198, 141 PHYSICA | Physica C198 (1992) 401-402 North-Holland Analytic Subject Index to Volume 198 AC susceptibility 81 Energy gap 33, 87, 328, 378 Ln-'184’ region 19 Angle resolved photoemission 360 Epitaxial junction 273 Ln-Ba-Cu-O systems 19 Anisotropic superconductor 215, 293, ESR 171 Low dimensional systems 371 309 -in LazCuQO,_,eiareq Materials 185 Antiferromagnetic order 14 Magnetic flux penetration 247 Fermi surface 349 Magnetic relaxation Band structure Fibres 129 -in T1,Ba,Ca,Cu,0, 222 -in Bi,Sr,Ca,Cu;0;, 378 Flux creep 81,222 Magnetic susceptibility 14, 237, 287 BCS model 47, 273, 360, 378 Flux lattice 383 -in T1,Ba,Ca,Cu,0;9_5 125 Benzene 137 Flux pinning 181, 371 -of (Bi,Cu)Sr,YCu,0,_; 1 Bi-oxides 137 -in Y ,Ba,Cu;07_; 256 -of (Bi,Pb),Sr,Ca,Cu,0, 261 Bipolaronic superconductivity 360, 378 -of (Bi,Pb),Sr,CaCu,0,,, 175 Gapless superconductor 42 -of (BiPb)2Sr,Ca,Cu,0, 95 Calculation 57 Glassy state 81,222 -of Nd,CuO,_,F, 209 Cation stoichiometry 203, 355 Grain alignment 181 -of YBa,Cu;0,,, 171 Cluster model 57 Grain boundaries 333 -of YBa,Cu,0, 383 Computer simulation 371 -in (Bi,Pb),Sr,Ca,Cu,0, 261 Magnetization Correlated-hopping model 87 -in PrBa,Cu,0;_, 278 -of Bioxides 137 Critical current density 256, 389 Green's function 360 -of Y,Ba,Cu;0,_; 181 -in (Bi,Pb),Sr,Ca,Cu,0, 261 Microstructure 129 -in YBa,Cu;0,_, 303 Halleffect 349 -in Bi-Si-Ca-Cu-O 333 Critical phenomena 75 -in YBa,Cu;0,¢,, 141 -in Y-Ba-Cu-O 333 Cu-O chains 70, 171 Halogenation Microwave absorption -in YBa,Cu;0,_, 328 -Of La,CuO,.,eiareq Materials 185 -in PrBa,Cu;0,_5; 247 Cu-O planes 147 Harmonic generation 383 -in YBa,Cu;0,_; 247 -in Bi,Sr,Ca,,_ ,Cu,O, (n=1-3) 349 High pressure effect 70, 103, 287 Modulated structures 129 -in YBa,Cu;0,_, 328 -in CaLaBaCu,0, 231 -in Bi-Pb-Sr-—Ca-—Cu-O 175 Cu-valence 7 HREM 7, 27, 261, 278, 309 MOssbauer spectroscopy 14, 57 -in La,CuQO,.,cicreg Materials 185 -thin crystals of YBa,Cu,0,_, 147 Multilayers 75, 389 Defect structures 57, 171, 371 Improvement of JT, 318 NIS junction 273 -in PrBa,;Cu;0,_, 278 Induced superconductivity 328 De Haas-—van Aiphen effect Intercalation 137 Over doping 42 -in NbSe, and YBa,Cu,0, 323 Intercation 137 Oxygen diffusion 147 Diamagnetic transitions 261, 349 Iodine intercalation Oxygen ordering 141 DTA 95 -in Bi,Sr,Ca,,_ ,;Cu,O, (n= 1-3) 349 Oxygen stoichiometry 27, 162 Dy-'184 19 Ionic size effects 109 -in La2_,.MxCuO,,, (M = Sr,Ba) 237 Iron doping 57 -in LnBa,Cu,0, 109 Electrical resistivity 75,237 Irreversibility line 81 -in (T1,Pb)Sr,Ca,Cu,0, 318 -in T1,Ba,Ca,Cu;,0;9_5 125 Isomer shift 57 -in YBa,Cu;0,_; 42 -of (Bi,Pb),Sr,CaCu,0,,, 175 -of BigSrg_ ,Ca4,,Cuo033;,E—d 162 Josephson effect 215 Pair breaking 87 -of YBa,Cu;0,,, 141 -in PrBa,Cu;,0,_, 278 Penetration depth 389 -of Y-Sr-Cu-C-O 53 Phase compatibilities 19 Electromagnetic granularity Kinetics 118 Phase diagram 237 -in (Bi,Pb),Sr,Ca,Cu,0, 261 Kosterlitz—Thouless transition 75 -of (La,Ca),CuO, 103 Electron-doped superconductor 109 -of Y-Ba-Cu-O 141 Electronic structure 171 Laser annealing 341 Polaronic superconductivity 360 Electron—phonon coupling 47, 360 Ln-'184’ phase 19 Proximity effect 215 Analytic subject index -of Sr4Y;Cu,0O,, 287 Raman scattering 33 -of SrgCusO, 287 TEM 181 -of Texture 333 Scanning electron microscopy 1, 95, T]iB.ay 9s4(4s)Cu(y 145(2))O6 45 203 Texturing 103, 125, 129 -of Tl,Ba,Ca,Cu;0;9_5 125 -in YBa,Cu;0,_; 118 Single-crystal growth 203 -Of Y2.0Sts.oCUg.0Co90162 53 Thermal neutron irradation 256 -of Bi,Sr,CaCu,O0, 273 Substitution effects 162 Thermoelectric effects 162 Solid solubility limits for Ln = Ho 19 -in Bi,Sr,Ca(Cu,_,Co,)20g45 33 Thin films 75, 247 Solubility -in Ho, +,Ba,_,Cu;0, 355 -of Ho, +,Ba,_,Cu,0, 355 -of Ca in La,CuO, 103 Substitution of F -of PrBa,Cu,0,_, 278 Specific heat, at 7, 42 -in Nd,CuO,._F , 209 -of YBa,Cu;0,_; 341, 389 Stability Superlattices -of YBa,Cu;0,_, 303 -of TbSr,(Cu,Mo),0, 70 -of YBa,Cu,;0,7_; 247 -of Y-Ba-—Cu-O 293 0 Superstructure 7 -oriented 293 -of YSr,(Cu,Mo),0, 7 Strong-coupling effects Surface impedance 75, 389 Tunneling 47, 87 -in Bi,Sr,CaCu,O, 47 Synthesis -in Bi,Sr,CaCu,O, 273 Structural phase transition 109 -of (Bi,Pb) Sr,CaCu,0,,, 175 Tunneling spectroscopy 33 Structure 19 -of (BiPb)2Sr,Ca,Cu,0, 95 Type II superconductors 256, 323 -of Nd,CuO,_,F, 209 -of (Bi,Cu )Sr,YCu,0;7_; l -of (B i,Pb )Sr,CaCu,O, +2 175 -of Sr,(Nd,Ce),MCu,0, Upper critical field H.. 323 -of (BiPb)2Sr,Ca,Cu,0, 95 (M=AI,Co,Ga) 27 -of CaLaBaCu,0, 231 7 -of (Co 4Cuo.¢)St2(Yo.86Sto.14)Cu20, -of Sr3.5Y;sCu;0, 287 -—of CaLaBaCu,0, 231 -of Sr4Y3;Cu,O,, 287 Vacuum annealing 318 -Of I ( Bio.915,Pbo.085 )2(Sto.93,Pbo.07 )2 -of SrgCus;O, 287 Vortex glass 81 (Cao 965;Pbo.035 )2Cu30, 309 -of thin films 389 -0f Tlo. sPbo.sSr2Ca,Cu;0, 318 Weak links 215, 333 -of (La,M ),CuO, +y (M = Sr,Ba) 237 -of T1,Ba,Ca,Cu;0;9_5 125 -in YBa,Cu,0, 383 -of Nd,CuO,_ .F, 209 -Of Y2 Sts 0CUs.0Co.90i6.2 53 -in YBa,Cu,0, andl 389 -of Sr, (N d,Ce )2MCu,0, -of YBa,Cu;07,_; 293, 341, 389 (M=AI,Co,Ga) 27 -of YBa,Cu;,0,_, 303 X-ray diffraction 118 -of Sr; 5Y; ;Cu,0, 287 Synthesis mechanism 19 PHYSICA |: Physica C198 (1992) 403 North-Holland Materials Index to Volume 198 (Bi,Cu)Sr,YCu,07_ 5 -structure 309 -—oxygen stoichiometry 318 —magnetic susceptibility 1 Tlo.sPbo sSr:Ca,Cu;0, -structure | (La,Ca),CuO, -synthesis 318 (Bi,Pb).Sr,Ca>Cu;0, -phase diagram T],.Ba8; 954(4() 4Cu,) 15(2)O645 -critical current density 261 (La,M ),CuO,,,, -structure 203 —electromagnetic granularity 261 -structure 237 T1,Ba,Ca,Cu;O0j9_5 -grain boundaries 261 La,CuO, -electrical resistivity 125 —magnetic susceptibility 261 -solubility 103 —magnetic susceptibility 125 (Bi,Pb ),Sr,CaCu,O¢,. -structure 125 La;CuQ,. related -electrical resistivity 175 -Cu-valence 185 -synthesis 125 —magnetic susceptibility 175 -ESR_ 185 T1,Ba,Ca,Cu,0, -structure 175 -halogenation 185 —magnetic relaxation 222 -synthesis 175 La,_,.MxCuO,4,, Bi,Sr,Ca,Cu,0j9 -oxygen stoichiometry 237 Y ,Ba,Cu,0,_; -band structure 378 LnBa,Cu,0O, -flux pinning 256 Bi,SryCa(Cu,_ ,Co,)20g45 —oxygen stoichiometry 109 —magnetization 181 —substitution effects 33 Y2.0S1s,0CU¢6.0Co.9160. 2 Bi,Sr,CaCu,O, NbSe, -structure 53 —single-crystal growth 273 —De Haas—van Alphen effect -synthesis 53 -tunneling 273 Nd,CuO,._F , YBa,Cu,0¢,., Bi,Sr,CaCu,O, —magnetic susceptibility 209 -electrical resistivity 141 —strong-coupling effects 47 -structure 209 —Halleffect 141 Bi,Sr,Ca,,_ ;Cu,,O, -substitution of F 209 —magnetic susceptibility 171 -Cu-O planes 349 -synthesis 209 YBa,Cu,0, -iodine intercalation 349 —magnetic susceptibility 383 BigSrg_ ,Ca44,CugO33;,E—d PrBa,Cu;07_+; -weak links 383 -electrical resistivity 162 —microwave absorption 247 YBa,Cu,;0,_; (BiPb)2Sr,Ca,Cu,0, PrBa,Cu,;0,_., —microwave absorption 247 —magnetic susceptibility 95 -—defect structures 278 —oxygen stoichiometry 42 -structure 95 -grain boundaries 278 —superlattices 247 —synthesis 95 -—Josephson effect 278 -synthesis 293, 341, 389 Bi-Pb-Sr—Ca—Cu-O -thin films 278 —texturing 118 -modulated structures 175 -thin films 341, 389 Bi-Si-Ca—Cu-O Sr2(Nd,Ce),MCu,0, -weak links 389 -microstructure 333 -structure 27 YBa,Cu,0;_, -synthesis 27 —critical current density 303 (Co.4Cuo.6 )St2(Yo.86Sto.14)Cu20, Sr3.sY¥;,sCu3;0, -Cu-O chains 328 -Structure 7 -structure 287 -Cu-O planes 328 CaLaBaCu,0, -synthesis 287 -HREM 147 —high pressure effect 231 Sr4Y¥3;Cu,O;4 -synthesis 303 -structure 231 -structure 287 -thin films 303 —upper critical field H.. 231 -synthesis 287 Y-Ba-—Cu-O SrgCu,O, -microstructure 333 Ho, ,,Ba2_,Cu,;0, -structure 287 -phase diagram 141 —substitution effects 355 -synthesis 287 —thin films 293 -thin films 355 YSr,(Cu,Mo),0, TbSr, (C u,Mo )30, -stability 70 I ( Bio 915,PBo.085 )2(Sto.93,PB0.07 )2 -stability 70 Y-Sr-—Cu-C-O -electrical resistivity 53 (Ca.o 965,PBo.035 )2Cu30, (T1,Pb )Sr,Ca,Cu,0,
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