Table Of Content

PHYSICA |: Physica C 195 (1992) 399-401 North-Holland Author Index to Volume 195 Adrian, H., see P. Wagner 195, 258 Elesin, V.F., V.A. Kashurnikov, L.A. Openov and Agassi, D. and J.R. Cullen, Twin boundary flux pinning in a A.I. Podlivaev, On the pressure effect on 7. of hole-doped high-7. superconductor 195, 277 and electron-doped high-7. superconductors 195, 171 Aguiar, R., see F. Sanchez 195, 47 Alvarez, G.,see P. Drotbohm 195, 28 Feduzi, R., F. Lanza and M.D. Giardina, The influence of Ananthakrishna, G., see R. Khanna _ 195, 59 carrier concentration on the superconductive properties of Arulgnanam, A. and A. Balasubramanian, Weak link behaviour YBa 2Cu3_ ,Li,O¢.54)~x/2 195,177 in YBa,Cu,;0,_, system studied by a site percolation Fueki, K., see H. Ishizuka 195, 145 model 195, 390 Fueki, K., see Y. Idemoto 195, 269 Baar, D.J.,see R. Liang 195, 51 Gallois, B.,see Y.Q. Li 195, 161 Bailey, A.,see P. Drotbohm 195, 28 Gan, Z.Z., see C.D. Wei 195, 286 Balagurov, A.M., see I.S. Lyubutin 195, 383 Garcia-Cuenca, M.V., see F. Sanchez 195, 47 Balasubramanian, A., see A. Arulgnanam 195, 390 Giardina, M.D., see R. Feduzi 195, 177 Barkatt, A., see H. Hojaji 195, 135 Goto, T., M. Niwa and A. Kawanaka, Platinum coating of Bender, H.,seeC.T. Lin 195, 291 solution-spun Y,Ba,Cu,O, filament 195, 199 Berdahl, P., X.L. Mao, R.P. Reade, M.D. Rubin, R.E. Russo Gou, Y.S.,see K.H. Wu 195, 241 and E. Yin, Angular magnetoresistance provides texture Grigor’eva, I.V., see L.A. Gurevich 195, 323 information on high-7, conductors 195, 93 Grigorieva, I.V., L.A. Gurevich and L. Ya. Vinnikov, Direct Bernhoeft, N.R., see M.R. Delap 195, 301 observation of the vortex structure in high-7, Bonn, D.A., see R. Liang 195, 51 superconductors in tilted magnetic fields. II. Vortex pinning Bordet, P., see C. Chaillout 195, 335 by twins in YBaCuO single crystals 195, 327 Brandt, E.H., Flux line lattice in high-7, superconductors: Groult, D., see R.S. Liu 195, 35 anisotropy, elasticity, fluctuation, thermal depinning, AC Gurevich, L.A., I.V. Grigor’eva, N.N. Kolesnikov, penetration and susceptibility 195, | M.P. Kulakov, V.A. Larkin and L.Ya. Vinnikov, Direct Briill, P., see D. Kirchgassner 195, 157 observation of the vortex structure in high-7, superconductors in tilted magnetic fields. I. Flux-line lattice Carolan, J.F.,see R. Liang 195, 51 in T1,Ba,CaCu,O,,, single crystals 195, 323 Cava, R.J., see C. Chaillout 195, 335 Gurevich, L.A., see 1.V. Grigorieva 195, 327 Chaillout, C.,Q. Huang, R.J. Cava, J. Chenavas, A. Santoro, Guyer, R., P. Kumar, S.G. Mishra, §. Obukhov and Y. Sun, A P. Bordet, J.L. Hodeau, J.J. Krajewski, J.P. Levy, phenomenological approach to the superconducting M. Marezio and W.F. Peck Jr., Synthesis and crystal transition in thin films and S-N superlattices 195, 263 structure of BaSrCuOQ,,,-CO, 195, 335 Gyorffy, B.L., see M.B. Suvasini 195, 109 Chen, B.-J., see M.A. Rodriguez 195, 185 Chenavas, J.,see C. Chaillout 195, 335 Han, P.D., see G.T. Seidler 195, 373 Chern, C.S., see Y.Q. Li 195, 161 Hardy, W.N., see R. Liang 195, 51 Ciszek, M., see E.S. Viakhov 195, 345 He, Q., see C.D. Wei 195, 286 Cosandey, F.,see Y.Q. Li 195, 161 Hervieu, M., see R.S. Liu 195, 35 Cullen, J.R., see D. Agassi 195, 277 Hirao, M., T. Uda and Y. Murayama, Electronic band structure of YBa,Cu,0, and YBa,Cu,0, by density functional Davis, D.D., see H. Hojaji 195, 135 pseudopotential method 195, 230 Delap, M.R. and N.R. Bernhoeft, A model for the thermal Hirsch, J.E. and F. Marsiglio, Normal state properties of high- conductivity of YBa,Cu,0,_; 195, 301 T. oxides 195, 355 Dmitrieva, T.V., see 1.S. Lyubutin 195, 383 Hodeau, J.L., see C. Chaillout 195, 335 Dosanjh, P., see R. Liang 195, 51 Hojaji, H., S. Hu, A. Barkatt, D.D. Davis and A.N. Thorpe, Drotbohm, P., G.J. Russell, A. Bailey, G. Alvarez and Anomalies in the magnetization of melt-processed YBCO K.N.R. Taylor, Low frequency (5 MHz) impedance superconductors 195, 135 measurements of thick YBCO films 195, 28 Hsu, S.E., see K.H. Wu 195, 241 Hu, S., see H. Hojaji 195, 135 Edwards, P.P.,see R.S. Liu 195, 35 Hu, S.F.,see R.S. Liu 195, 35 400 Index of authors and papers Huang, Q., see C. Chaillout 195, 335 Lee, C.L., see K.H. Wu 195, 241 Leiderer, P., see D. Kirchgéssner 195, 157 Idemoto, Y., see H. Ishizuka 195, 145 Levy, J.P., see C. Chaillout 195, 335 Idemoto, Y., I. Oyagi and K. Fueki, Determination of Li, J., S. Komiya, T. Tamura, C. Nagasaki, J. Kihara, K. Kishio thermodynamic data of Ln, gsCep,;;CuO, and Ln,CuO, and K. Kitazawa, Growth and properties of pure Co single (Ln=Nd, Sm, Eu) by the EMF method 195, 269 crystals from vapor 195, 205 Ishizuka, H., Y. Idemoto and K. Fueki, Oxygen Li, Y.Q., J. Zhao, C.S. Chern, P. Lu, B. Gallois, P. Norris, nonstoichiometry and high-temperature conductivity of B. Kear and F. Cosandey, Effects of composition on DyBa,Cu;0,_5; 195, 145 microstructure and superconducting properties of Itoh, N., see S. Kawamata 195, 103 YBa,Cu,O,_., thin films prepared by plasma enhanced metalorganic chemical vapor deposition 195, 161 Jefferson, D.A., see R.S. Liu 195, 35 Liang, R., P. Dosanjh, D.A. Bonn, D.J. Baar, J.F. Carolan and Juang, J.Y.,seeK.H. Wu 195, 241 W.N. Hardy, Growth and properties of superconducting YBCO single crystals 195, 51 Kadowaki, K., see S. Kawamata 195, 103 Liang, W.Y.,see C.T. Lin 195, 291 Kadowaki, K. and T. Mochiku, Anomalous magnetization Lin, C.T., W. Zhou, W.Y. Liang, E. Schénherr and H. Bender, behavior of single crystalline Bi,Sr,CaCu,0,,; 195, 127 Growth of large and untwinned single crystal of Kahrizi, M., see S.K. Misra 195, 71 YBCO 195, 291 Kao, Y.H., see W.J. Yeh 195, 367 Liu, R.S., D. Groult, A. Maignan, S.F. Hu, D.A. Jefferson, Kashurnikov, V.A., see V.F. Elesin 195, 171 B. Raveau, C. Michel, M. Hervieu and P.P. Edwards, An Kawamata, S., N. Itoh, K. Okuda, T. Mochiku and enhancement of 7., from 45 K to 70 K, via Cd substitution K. Kadowaki, Observation of anisotropic pinning effect in in (Pb,Cu)Sr,(Ca,Y )Cu,07,_5; 195, 35 Bi,Sr,CaCu,Og,5 single crystals 195, 103 Liu, Z.X., see C.D. Wei 195, 286 Kawanaka, A.,see T. Goto 195, 199 Lu, P., see Y.Q. Li 195, 161 Kear, B., see Y.Q. Li 195, 161 Lyubutin, I.S., V.G. Terziev, T.V. Dmitrieva, A.M. Balagurov Kes, P.H., see C.J. van der Beek 195, 307 and S. Nasu, Magnetic ordering of Fe atoms in oxygen- Khanna, R. and G. Ananthakrishna, Monte Carlo study of the saturated and oxygen-reduced YBa2(Cu,_,Fe,);0, 195, phase boundary of YBa,Cu;0,,, 195,59 383 Kihara, J.,seeJ. Li 195, 205 Kirchgassner, D., P. Briill and P. Leiderer, Determination of the Maignan, A., see R.S. Liu 195, 35 critical current density in superconducting films. Maley, M.P., see C.J. van der Beek 195, 307 Comparison of a measured magnetic flux distribution with Mao, X.L., see P. Berdahl 195, 93 model calculations 195, 157 Maple, M.B., L.M. Paulius and J.J. Neumeier, On the pressure Kishio, K., see J. Li 195, 205 dependence of 7, of the Y,_ ,.Pr,Ba,Cu,;0;_;system 195, Kitazawa, K.,see J. Li 195, 205 64 Klavins, P.,see Y. Nagata 195, 195 Marezio, M., see C. Chaillout 195, 335 Kolesnikov, N.N., V.E. Korotkov, M.P. Kulakov, Marsiglio, F., see J.E. Hirsch 195, 355 R.P. Shibaeva, V.N. Molchanov, R.A. Tamazyan and Menken, M.J.V., see C.J. van der Beek 195, 307 V.I. Simonov, Structure of superconducting single crystals of Menovsky, A.A., see C.J. van der Beek 195, 307 2201 thallium cuprate (TI, s;Cug ;;) BayCuO,, T.= 110 Michel, C., see R.S. Liu 195, 35 K 195,219 Mishra, S.G., see R. Guyer 195, 263 Kolesnikov, N.N., see L.A. Gurevich 195, 323 Misra, S.K. and M. Kahrizi, Microwave absorption by single Komiya, S., see J. Li 195, 205 and polycrystals of Bi,Sr,CaCu,O0,,; 195, 71 Kopylov, V.N., T.G. Togonidze and I.F. Schegolev, Observation Mochiku, T., see S. Kawamata 195, 103 of 2D-3D transition in Tl,Ba,CaCu,0, 195, 379 Mochiku, T., see K. Kadowaki 195, 127 Korotkov, V.E., see N.N. Kolesnikov 195, 219 Molchanov, V.N., see N.N. Kolesnikov 195, 219 Krajewski, J.J., see C. Chaillout 195, 335 Morenza, J.L., see F. Sanchez 195, 47 Kulakov, M.P., see N.N. Kolesnikov 195, 219 Mosley, W.D., see Y. Nagata 195, 195 Kulakov, M.P., see L.A. Gurevich 195, 323 Murayama, Y.,see M. Hirao 195, 230 Kumar, P., see R. Guyer 195, 263 Kurmaey, E.Z. and S.N. Shamin, CKa X-ray emission spectra Nagasaki, C.,see J. Li 195, 205 of Coo 195, 352 Nagata, Y., N. Suzuki, T. Uchida, W.D. Mosley, P. Klavins and Kuznetsov, A.A., see A.N. Terentiev 195, 41 R.N. Shelton, Electrical resistivity of single crystal Ba,_,.K,BiO, 195, 195 Lai, T.C.,see K.H. Wu: 1195, 241 Nasu, S., see ILS. Lyubutin 195, 383 Lanza, F.,see R. Feduzi 195, 177 Nenkov, K.A., see E.S. Viakhov 195, 345 Larkin, V.A., see L.A. Gurevich 195, 323 Neumeier, J.J., see M.B. Maple 195, 64 Index of authors and papers Niwa, M.,see T. Goto 195, 199 Sun, Y.,seeR. Guyer 195, 263 Norris, P., see Y.Q. Li 195, 161 Suvasini, M.B. and B.L. Gyorffy, A multiple scattering method for solving Bogoliubov—de Gennes equations of Obukhov, S., see R. Guyer 195, 263 superconductivity 195, 109 Okuda, K., seeS. Kawamata 195, 103 Suzuki, N., see Y. Nagata 195, 195 Openov, L.A., see V.F. Elesin 195, 171 Owens, F.J., Magneto microwave absorption observation of Tamazyan, R.A., see N.N. Kolesnikov 195, 219 surface vortex lattice melting in single crystals of Tamura, T., see J. Li 195, 205 Bi,Sr,CaCu,0,,, 195, 225 Taylor, K.N.R., see P. Drotbohm 195, 28 Oyagi,I.,see Y. Idemoto 195, 269 Terentiev, A.N. and A.A. Kuznetsov, Drift of levitated YBCO superconductor induced by both a variable magnetic field Paulius, L.M., see M.B. Maple 195, 64 andavibration 195, 41 Payne, D.A., see G.T. Seidler 195, 373 Terziev, V.G., see I.S. Lyubutin 195, 383 Peck Jr., W.F., see C. Chaillout 195, 335 Thorpe, A.N., see H. Hojaji 195, 135 Phillips, J.C., Theory of anomalous sharpening of Togonidze, T.G., see V.N. Kopylov 195, 379 superconductive photoemission spectra 195, 239 Tomé-Rosa, C., see P. Wagner 195, 258 Podlivaev, A.I., see V.F. Elesin 195, 171 Tu, S.L.,see K.H. Wu 195, 241 Queralt, X., see F. Sanchez 195, 47 Uchida, T., see Y. Nagata 195, 195 Uda, T., see M. Hirao 195, 230 Rajeev, K.P., see H. Srikanth 195, 87 Uen, T.M., see K.H. Wu 1195, 241 Raveau, B.,see R.S. Liu 195, 35 Raychaudhuri, A.K., see H. Srikanth 195, 87 Van der Beek, C.J., P.H. Kes, M.P. Maley, M.J.V. Menken and Reade, R.P., see P. Berdahl 195, 93 A.A. Menovsky, Flux pinning and creep in the vortex—glass Ren, H.T., see C.D. Wei 195, 286 phase in Bi,Sr,CaCu,Og,; single crystals 195, 307 Rodriguez, M.A., B.-J. Chen and R.L. Snyder, The formation Varela, M., see F. Sanchez 195, 47 mechanism of textured YBa,Cu,0,_; 195, 185 Veal, B.W., see G.T. Seidler 195, 373 Rosenbaum, T.F., see G.T. Seidler 195, 373 Vinnikov, L.Ya., see L.A. Gurevich 195, 323 Rubin, M.D., see P. Berdahl 195, 93 Vinnikov, L.Ya., see I.V. Grigorieva 195, 327 Russell, G.J.,see P. Drotbohm 195, 28 Vlakhov, E.S., K.A. Nenkov and M. Ciszek, AC losses in Russo, R.E., see P. Berdahl 195, 93 polycrystalline YBa,Cu,O, doped with Agand Te 195, 345 Sanchez, F., M. Varela, X. Queralt, M.V. Garcia-Cuenca, Wagner, P., H. Adrian and C. Tomé-Rosa, In situ-preparation R. Aguiar and J.L. Morenza, Superconducting YBa,Cu,0, of Bi,Sr,CaCu,O,-thin films by DC-sputtering 195, 258 films deposited on Si( 100) substrates with CeO, buffer Wei, C.D., Z.X. Liu, Z.Z. Gan, H.T. Ren, L. Xiao and Q. He, layers by laser ablation 195, 47 Scaling law and flux pinning in neutron-irradiated Santoro, A., see C. Chaillout 195, 335 YBa,Cu,O, crystal prepared by melt-textured growth Schegolev, I.F.,see V.N. Kopylov 195, 379 method 195, 286 Schneider, T., Relation between transition temperature, Wu, K.H., J.Y. Juang, C.L. Lee, T.C. Lai, T.M. Ven, Y.S. Gou, London penetration depth and Kosterlitz—Thouless S.L. Tu, S.J. Yang and S.E. Hsu, Optimization of depositing behavior in superconductors 195, 82 Y ,Ba,Cu,0;_, superconducting thin films by excimer laser Schénherr, E., see C.T. Lin 195, 291 ablation with CO, laser-heated substrates 195, 241 Seidler, G.T., T.F. Rosenbaum, P.D. Han, D.A. Payne and B.W. Veal, Critical fields and flux pinning in single crystal Ba,_,K,BiO, 195, 373 Xiao, L., see C.D. Wei 195, 286 Shamin, S.N., see E.Z. Kurmaev 195, 352 Shelton, R.N., see Y. Nagata 195, 195 Yang, M., see W.J. Yeh 195, 367 Shibaeva, R.P., see N.N. Kolesnikov 195, 219 Yang, S.J.,see K.H. Wu = 195, 241 Shivashankar, G.V., see H. Srikanth 195, 87 Yeh, W.J., L.K. Yu, M. Yang, L.W. Song and Y.H. Kao, Flux- Simonov, V.I., see N.N. Kolesnikov 195, 219 flow noise and possible self-organized criticality in Snyder, R.L., see M.A. Rodriguez 195, 185 YBa,Cu,;0,_;thin films 195, 367 Song, L.W., see W.J. Yeh 195, 367 Yin, E., see P. Berdahl 195, 93 Srikanth, H., K.P. Rajeev, G.V. Shivashankar and Yu, L.K., see W.J. Yeh 195, 367 A.K. Raychaudhuri, Normal state tunneling conductance of perovskite oxides. Implications for high-7, Zhao, J.,see Y.Q. Li 195, 161 superconductors 195, 87 Zhou, W., see C.T. Lin 195, 291 PHYSICA |: Physica C 195 (1992) 403 North-Holland Analytic Subject Index to Volume 195 1/fnoise 367 Flux pinning 41, 103, 127, 135, 277, Pulsed laser deposition 241 286, 307, 323, 327, 373 AC susceptibility 1 Scanning electron microscopy 241 Anisotropic superconductor 1, 71, 82, Ginzburg-Landau theory 263 Single-crystal growth 51, 185, 205,219 103, 379 Glassy state 307 -of YBCO 291 Applications of high-7, Grain alignment (texturing) 93, 185 Specific heat 205 superconductors 199 Granular superconductivity 28, 71, 345 Specific heat at 7. 51 Standard free energy change 269 Band structure 230, 355 High pressure effect 64, 171 Structural phase transition 205 Binding energy 171 Hole concentration 177 Structure Bitter technique 323, 327 HREM 161, 291 -of BaSrCuO, o ,CO; 335 Bogoliubov—de Gennes equations 109 -of ( Pb,Cu )Sr, (C a,Y yCu,0, — 35 Bose condensation 82 Impedance 28 -of T1,Ba,CuO, 219 Irradiation effect 286 47 -of YBa,Cu,0, C60 compounds 205, 352 Irreversibility line 225 -of YBa,Cu,0, fall 185, 390 Carrier concentration 230, 355 Substitution effects 177 Coating 199 Lattice parameters -in (Pb,Cu)Sr,(Ca,Y )Cu,0,7_; 35 -of T1,Ba,CuO, 219 Coherence length 195 -in Y,_,Pr,Ba,Cu,0,_; 64 Levitation 41 Collective pinning 127 -in YBCO 135 Lower critical field H,, 103, 195, 373 Critical current density 127, 135, 157, Substitution effects of Ag and Te 161, 195, 199, 277, 286, 307, 345 -in YBa,Cu,O, 345 Magnetic phase diagram 383 Critical state model 157 Surface barrier 277, 345 Magnetization 135, 307 Cu-O chains 145 Synthesis -of Ba,_,.K,BiO, 373 Cu-O planes 93, 145,171,177 -of BaSrCuO,, ,.CO; 335 -of Bi,Sr,CaCu,O0g,5 103, 127 -of Bi,Sr,CaCu,O,, 258 -of T1,Ba,CaCu,0, 379 Decomposition pressure 269 -of Y ,Ba,Cu,0;_; 241 Magnetoresistance 93 -of YBa,Cu;0,_; 185 Metal-insulator transition 87 Electrical resistivity 28, 51, 93, 145, 258, -of YBCO 291 Microwave absorption 51, 71,225 301 Modulated structures 263 -of Ba,_,K,BiO, 195 Thermal conductivity MOssbauer spectroscopy 383 Electronic structure 230, 352 -of YBa,Cu,0, oil 301 Emery Hamiltonian 171 Thin films 28, 93, 157, 263 Neutron diffraction 335, 383 EMF measurement Normal-state properties 64, 87, 355 —of Bi,Sr,CaCu,O,, 258 —on Ln,CuO, (Ln=Nd,Sm,Eu) 269 -of Y 1 Ba»Cu,;07_; 241 Energy gap 109 -of YBa,Cu,0, 47 O-T transition 59 -of YBa,Cu,0,_, 161 Oxygen ordering 59 Fermisurface 230 Oxygen stoichiometry 145, 301, 390 Tunneling 87 Fietz—Webb scaling law 286 Twin boundaries 277, 291, 327 Fluctuation effects 1, 82 Pair breaking 64, 263 Flux creep 307 Penetration depth 1, 82 Upper critical field H,, 195, 373 Flux dynamics 41, 367 Percolation model 390 Flux lattice 1,225,379 Phase diagram 59, 145 Weak links 390 -in T1,Ba,CaCu,Og, , 323 Phonon spectrum 239 -in YBaCuO 327 Photoemission spectra Flux melting 367 -of Bi,Sr,CaCu,O¢, 5 239 PHYSICA |: Physica C 195 (1992) 405 North-Holland Materials Index to Volume 195 Ba, _,K,BiO; ( Pb,Cu )Sr, (C a,Y )Cu,0, _ —substitution effects 64 -electrical resistivity 195 -structure 35 YBa,Cu,0, —magnetization 373 —substitution effects 35 —structure 47 BaSrCuOQ,, ,.CO; —thin films 47 -structure 335 T1,Ba,CaCu,O¢, , YBa,Cu,0, = -synthesis 335 -flux lattice 323 —structure 185, 390 Bi,Sr,CaCu,Og4 5 T1,Ba,CaCu,0, —synthesis 185 —magnetization 103, 127 —magnetization 379 —-thermal conductivity 301 -photoemission spectra 239 T1,Ba,CuO, YBa,Cu,0, = Bi,Sr,CaCu,O, -lattice parameters 219 —thin films 161 -synthesis 258 -structure 219 -thin films 258 YBa,Cu,O, —substitution effects of Agand Te 345 Y ,Ba,Cu,;0,_; -synthesis 241 YBaCuO Ln ,CuO, —EMF measurement 269 -thin films 241 —flux lattice 327 Y,_,Pr,Ba,Cu,07_;

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Preview Physica C. Superconductivity 1992: Vol 195 Index

PHYSICA |: Physica C 195 (1992) 399-401 North-Holland Author Index to Volume 195 Adrian, H., see P. Wagner 195, 258 Elesin, V.F., V.A. Kashurnikov, L.A. Openov and Agassi, D. and J.R. Cullen, Twin boundary flux pinning in a A.I. Podlivaev, On the pressure effect on 7. of hole-doped high-7. superconductor 195, 277 and electron-doped high-7. superconductors 195, 171 Aguiar, R., see F. Sanchez 195, 47 Alvarez, G.,see P. Drotbohm 195, 28 Feduzi, R., F. Lanza and M.D. Giardina, The influence of Ananthakrishna, G., see R. Khanna _ 195, 59 carrier concentration on the superconductive properties of Arulgnanam, A. and A. Balasubramanian, Weak link behaviour YBa 2Cu3_ ,Li,O¢.54)~x/2 195,177 in YBa,Cu,;0,_, system studied by a site percolation Fueki, K., see H. Ishizuka 195, 145 model 195, 390 Fueki, K., see Y. Idemoto 195, 269 Baar, D.J.,see R. Liang 195, 51 Gallois, B.,see Y.Q. Li 195, 161 Bailey, A.,see P. Drotbohm 195, 28 Gan, Z.Z., see C.D. Wei 195, 286 Balagurov, A.M., see I.S. Lyubutin 195, 383 Garcia-Cuenca, M.V., see F. Sanchez 195, 47 Balasubramanian, A., see A. Arulgnanam 195, 390 Giardina, M.D., see R. Feduzi 195, 177 Barkatt, A., see H. Hojaji 195, 135 Goto, T., M. Niwa and A. Kawanaka, Platinum coating of Bender, H.,seeC.T. Lin 195, 291 solution-spun Y,Ba,Cu,O, filament 195, 199 Berdahl, P., X.L. Mao, R.P. Reade, M.D. Rubin, R.E. Russo Gou, Y.S.,see K.H. Wu 195, 241 and E. Yin, Angular magnetoresistance provides texture Grigor’eva, I.V., see L.A. Gurevich 195, 323 information on high-7, conductors 195, 93 Grigorieva, I.V., L.A. Gurevich and L. Ya. Vinnikov, Direct Bernhoeft, N.R., see M.R. Delap 195, 301 observation of the vortex structure in high-7, Bonn, D.A., see R. Liang 195, 51 superconductors in tilted magnetic fields. II. Vortex pinning Bordet, P., see C. Chaillout 195, 335 by twins in YBaCuO single crystals 195, 327 Brandt, E.H., Flux line lattice in high-7, superconductors: Groult, D., see R.S. Liu 195, 35 anisotropy, elasticity, fluctuation, thermal depinning, AC Gurevich, L.A., I.V. Grigor’eva, N.N. Kolesnikov, penetration and susceptibility 195, | M.P. Kulakov, V.A. Larkin and L.Ya. Vinnikov, Direct Briill, P., see D. Kirchgassner 195, 157 observation of the vortex structure in high-7, superconductors in tilted magnetic fields. I. Flux-line lattice Carolan, J.F.,see R. Liang 195, 51 in T1,Ba,CaCu,O,,, single crystals 195, 323 Cava, R.J., see C. Chaillout 195, 335 Gurevich, L.A., see 1.V. Grigorieva 195, 327 Chaillout, C.,Q. Huang, R.J. Cava, J. Chenavas, A. Santoro, Guyer, R., P. Kumar, S.G. Mishra, §. Obukhov and Y. Sun, A P. Bordet, J.L. Hodeau, J.J. Krajewski, J.P. Levy, phenomenological approach to the superconducting M. Marezio and W.F. Peck Jr., Synthesis and crystal transition in thin films and S-N superlattices 195, 263 structure of BaSrCuOQ,,,-CO, 195, 335 Gyorffy, B.L., see M.B. Suvasini 195, 109 Chen, B.-J., see M.A. Rodriguez 195, 185 Chenavas, J.,see C. Chaillout 195, 335 Han, P.D., see G.T. Seidler 195, 373 Chern, C.S., see Y.Q. Li 195, 161 Hardy, W.N., see R. Liang 195, 51 Ciszek, M., see E.S. Viakhov 195, 345 He, Q., see C.D. Wei 195, 286 Cosandey, F.,see Y.Q. Li 195, 161 Hervieu, M., see R.S. Liu 195, 35 Cullen, J.R., see D. Agassi 195, 277 Hirao, M., T. Uda and Y. Murayama, Electronic band structure of YBa,Cu,0, and YBa,Cu,0, by density functional Davis, D.D., see H. Hojaji 195, 135 pseudopotential method 195, 230 Delap, M.R. and N.R. Bernhoeft, A model for the thermal Hirsch, J.E. and F. Marsiglio, Normal state properties of high- conductivity of YBa,Cu,0,_; 195, 301 T. oxides 195, 355 Dmitrieva, T.V., see 1.S. Lyubutin 195, 383 Hodeau, J.L., see C. Chaillout 195, 335 Dosanjh, P., see R. Liang 195, 51 Hojaji, H., S. Hu, A. Barkatt, D.D. Davis and A.N. Thorpe, Drotbohm, P., G.J. Russell, A. Bailey, G. Alvarez and Anomalies in the magnetization of melt-processed YBCO K.N.R. Taylor, Low frequency (5 MHz) impedance superconductors 195, 135 measurements of thick YBCO films 195, 28 Hsu, S.E., see K.H. Wu 195, 241 Hu, S., see H. Hojaji 195, 135 Edwards, P.P.,see R.S. Liu 195, 35 Hu, S.F.,see R.S. Liu 195, 35 400 Index of authors and papers Huang, Q., see C. Chaillout 195, 335 Lee, C.L., see K.H. Wu 195, 241 Leiderer, P., see D. Kirchgéssner 195, 157 Idemoto, Y., see H. Ishizuka 195, 145 Levy, J.P., see C. Chaillout 195, 335 Idemoto, Y., I. Oyagi and K. Fueki, Determination of Li, J., S. Komiya, T. Tamura, C. Nagasaki, J. Kihara, K. Kishio thermodynamic data of Ln, gsCep,;;CuO, and Ln,CuO, and K. Kitazawa, Growth and properties of pure Co single (Ln=Nd, Sm, Eu) by the EMF method 195, 269 crystals from vapor 195, 205 Ishizuka, H., Y. Idemoto and K. Fueki, Oxygen Li, Y.Q., J. Zhao, C.S. Chern, P. Lu, B. Gallois, P. Norris, nonstoichiometry and high-temperature conductivity of B. Kear and F. Cosandey, Effects of composition on DyBa,Cu;0,_5; 195, 145 microstructure and superconducting properties of Itoh, N., see S. Kawamata 195, 103 YBa,Cu,O,_., thin films prepared by plasma enhanced metalorganic chemical vapor deposition 195, 161 Jefferson, D.A., see R.S. Liu 195, 35 Liang, R., P. Dosanjh, D.A. Bonn, D.J. Baar, J.F. Carolan and Juang, J.Y.,seeK.H. Wu 195, 241 W.N. Hardy, Growth and properties of superconducting YBCO single crystals 195, 51 Kadowaki, K., see S. Kawamata 195, 103 Liang, W.Y.,see C.T. Lin 195, 291 Kadowaki, K. and T. Mochiku, Anomalous magnetization Lin, C.T., W. Zhou, W.Y. Liang, E. Schénherr and H. Bender, behavior of single crystalline Bi,Sr,CaCu,0,,; 195, 127 Growth of large and untwinned single crystal of Kahrizi, M., see S.K. Misra 195, 71 YBCO 195, 291 Kao, Y.H., see W.J. Yeh 195, 367 Liu, R.S., D. Groult, A. Maignan, S.F. Hu, D.A. Jefferson, Kashurnikov, V.A., see V.F. Elesin 195, 171 B. Raveau, C. Michel, M. Hervieu and P.P. Edwards, An Kawamata, S., N. Itoh, K. Okuda, T. Mochiku and enhancement of 7., from 45 K to 70 K, via Cd substitution K. Kadowaki, Observation of anisotropic pinning effect in in (Pb,Cu)Sr,(Ca,Y )Cu,07,_5; 195, 35 Bi,Sr,CaCu,Og,5 single crystals 195, 103 Liu, Z.X., see C.D. Wei 195, 286 Kawanaka, A.,see T. Goto 195, 199 Lu, P., see Y.Q. Li 195, 161 Kear, B., see Y.Q. Li 195, 161 Lyubutin, I.S., V.G. Terziev, T.V. Dmitrieva, A.M. Balagurov Kes, P.H., see C.J. van der Beek 195, 307 and S. Nasu, Magnetic ordering of Fe atoms in oxygen- Khanna, R. and G. Ananthakrishna, Monte Carlo study of the saturated and oxygen-reduced YBa2(Cu,_,Fe,);0, 195, phase boundary of YBa,Cu;0,,, 195,59 383 Kihara, J.,seeJ. Li 195, 205 Kirchgassner, D., P. Briill and P. Leiderer, Determination of the Maignan, A., see R.S. Liu 195, 35 critical current density in superconducting films. Maley, M.P., see C.J. van der Beek 195, 307 Comparison of a measured magnetic flux distribution with Mao, X.L., see P. Berdahl 195, 93 model calculations 195, 157 Maple, M.B., L.M. Paulius and J.J. Neumeier, On the pressure Kishio, K., see J. Li 195, 205 dependence of 7, of the Y,_ ,.Pr,Ba,Cu,;0;_;system 195, Kitazawa, K.,see J. Li 195, 205 64 Klavins, P.,see Y. Nagata 195, 195 Marezio, M., see C. Chaillout 195, 335 Kolesnikov, N.N., V.E. Korotkov, M.P. Kulakov, Marsiglio, F., see J.E. Hirsch 195, 355 R.P. Shibaeva, V.N. Molchanov, R.A. Tamazyan and Menken, M.J.V., see C.J. van der Beek 195, 307 V.I. Simonov, Structure of superconducting single crystals of Menovsky, A.A., see C.J. van der Beek 195, 307 2201 thallium cuprate (TI, s;Cug ;;) BayCuO,, T.= 110 Michel, C., see R.S. Liu 195, 35 K 195,219 Mishra, S.G., see R. Guyer 195, 263 Kolesnikov, N.N., see L.A. Gurevich 195, 323 Misra, S.K. and M. Kahrizi, Microwave absorption by single Komiya, S., see J. Li 195, 205 and polycrystals of Bi,Sr,CaCu,O0,,; 195, 71 Kopylov, V.N., T.G. Togonidze and I.F. Schegolev, Observation Mochiku, T., see S. Kawamata 195, 103 of 2D-3D transition in Tl,Ba,CaCu,0, 195, 379 Mochiku, T., see K. Kadowaki 195, 127 Korotkov, V.E., see N.N. Kolesnikov 195, 219 Molchanov, V.N., see N.N. Kolesnikov 195, 219 Krajewski, J.J., see C. Chaillout 195, 335 Morenza, J.L., see F. Sanchez 195, 47 Kulakov, M.P., see N.N. Kolesnikov 195, 219 Mosley, W.D., see Y. Nagata 195, 195 Kulakov, M.P., see L.A. Gurevich 195, 323 Murayama, Y.,see M. Hirao 195, 230 Kumar, P., see R. Guyer 195, 263 Kurmaey, E.Z. and S.N. Shamin, CKa X-ray emission spectra Nagasaki, C.,see J. Li 195, 205 of Coo 195, 352 Nagata, Y., N. Suzuki, T. Uchida, W.D. Mosley, P. Klavins and Kuznetsov, A.A., see A.N. Terentiev 195, 41 R.N. Shelton, Electrical resistivity of single crystal Ba,_,.K,BiO, 195, 195 Lai, T.C.,see K.H. Wu: 1195, 241 Nasu, S., see ILS. Lyubutin 195, 383 Lanza, F.,see R. Feduzi 195, 177 Nenkov, K.A., see E.S. Viakhov 195, 345 Larkin, V.A., see L.A. Gurevich 195, 323 Neumeier, J.J., see M.B. Maple 195, 64 Index of authors and papers Niwa, M.,see T. Goto 195, 199 Sun, Y.,seeR. Guyer 195, 263 Norris, P., see Y.Q. Li 195, 161 Suvasini, M.B. and B.L. Gyorffy, A multiple scattering method for solving Bogoliubov—de Gennes equations of Obukhov, S., see R. Guyer 195, 263 superconductivity 195, 109 Okuda, K., seeS. Kawamata 195, 103 Suzuki, N., see Y. Nagata 195, 195 Openov, L.A., see V.F. Elesin 195, 171 Owens, F.J., Magneto microwave absorption observation of Tamazyan, R.A., see N.N. Kolesnikov 195, 219 surface vortex lattice melting in single crystals of Tamura, T., see J. Li 195, 205 Bi,Sr,CaCu,0,,, 195, 225 Taylor, K.N.R., see P. Drotbohm 195, 28 Oyagi,I.,see Y. Idemoto 195, 269 Terentiev, A.N. and A.A. Kuznetsov, Drift of levitated YBCO superconductor induced by both a variable magnetic field Paulius, L.M., see M.B. Maple 195, 64 andavibration 195, 41 Payne, D.A., see G.T. Seidler 195, 373 Terziev, V.G., see I.S. Lyubutin 195, 383 Peck Jr., W.F., see C. Chaillout 195, 335 Thorpe, A.N., see H. Hojaji 195, 135 Phillips, J.C., Theory of anomalous sharpening of Togonidze, T.G., see V.N. Kopylov 195, 379 superconductive photoemission spectra 195, 239 Tomé-Rosa, C., see P. Wagner 195, 258 Podlivaev, A.I., see V.F. Elesin 195, 171 Tu, S.L.,see K.H. Wu 195, 241 Queralt, X., see F. Sanchez 195, 47 Uchida, T., see Y. Nagata 195, 195 Uda, T., see M. Hirao 195, 230 Rajeev, K.P., see H. Srikanth 195, 87 Uen, T.M., see K.H. Wu 1195, 241 Raveau, B.,see R.S. Liu 195, 35 Raychaudhuri, A.K., see H. Srikanth 195, 87 Van der Beek, C.J., P.H. Kes, M.P. Maley, M.J.V. Menken and Reade, R.P., see P. Berdahl 195, 93 A.A. Menovsky, Flux pinning and creep in the vortex—glass Ren, H.T., see C.D. Wei 195, 286 phase in Bi,Sr,CaCu,Og,; single crystals 195, 307 Rodriguez, M.A., B.-J. Chen and R.L. Snyder, The formation Varela, M., see F. Sanchez 195, 47 mechanism of textured YBa,Cu,0,_; 195, 185 Veal, B.W., see G.T. Seidler 195, 373 Rosenbaum, T.F., see G.T. Seidler 195, 373 Vinnikov, L.Ya., see L.A. Gurevich 195, 323 Rubin, M.D., see P. Berdahl 195, 93 Vinnikov, L.Ya., see I.V. Grigorieva 195, 327 Russell, G.J.,see P. Drotbohm 195, 28 Vlakhov, E.S., K.A. Nenkov and M. Ciszek, AC losses in Russo, R.E., see P. Berdahl 195, 93 polycrystalline YBa,Cu,O, doped with Agand Te 195, 345 Sanchez, F., M. Varela, X. Queralt, M.V. Garcia-Cuenca, Wagner, P., H. Adrian and C. Tomé-Rosa, In situ-preparation R. Aguiar and J.L. Morenza, Superconducting YBa,Cu,0, of Bi,Sr,CaCu,O,-thin films by DC-sputtering 195, 258 films deposited on Si( 100) substrates with CeO, buffer Wei, C.D., Z.X. Liu, Z.Z. Gan, H.T. Ren, L. Xiao and Q. He, layers by laser ablation 195, 47 Scaling law and flux pinning in neutron-irradiated Santoro, A., see C. Chaillout 195, 335 YBa,Cu,O, crystal prepared by melt-textured growth Schegolev, I.F.,see V.N. Kopylov 195, 379 method 195, 286 Schneider, T., Relation between transition temperature, Wu, K.H., J.Y. Juang, C.L. Lee, T.C. Lai, T.M. Ven, Y.S. Gou, London penetration depth and Kosterlitz—Thouless S.L. Tu, S.J. Yang and S.E. Hsu, Optimization of depositing behavior in superconductors 195, 82 Y ,Ba,Cu,0;_, superconducting thin films by excimer laser Schénherr, E., see C.T. Lin 195, 291 ablation with CO, laser-heated substrates 195, 241 Seidler, G.T., T.F. Rosenbaum, P.D. Han, D.A. Payne and B.W. Veal, Critical fields and flux pinning in single crystal Ba,_,K,BiO, 195, 373 Xiao, L., see C.D. Wei 195, 286 Shamin, S.N., see E.Z. Kurmaev 195, 352 Shelton, R.N., see Y. Nagata 195, 195 Yang, M., see W.J. Yeh 195, 367 Shibaeva, R.P., see N.N. Kolesnikov 195, 219 Yang, S.J.,see K.H. Wu = 195, 241 Shivashankar, G.V., see H. Srikanth 195, 87 Yeh, W.J., L.K. Yu, M. Yang, L.W. Song and Y.H. Kao, Flux- Simonov, V.I., see N.N. Kolesnikov 195, 219 flow noise and possible self-organized criticality in Snyder, R.L., see M.A. Rodriguez 195, 185 YBa,Cu,;0,_;thin films 195, 367 Song, L.W., see W.J. Yeh 195, 367 Yin, E., see P. Berdahl 195, 93 Srikanth, H., K.P. Rajeev, G.V. Shivashankar and Yu, L.K., see W.J. Yeh 195, 367 A.K. Raychaudhuri, Normal state tunneling conductance of perovskite oxides. Implications for high-7, Zhao, J.,see Y.Q. Li 195, 161 superconductors 195, 87 Zhou, W., see C.T. Lin 195, 291 PHYSICA |: Physica C 195 (1992) 403 North-Holland Analytic Subject Index to Volume 195 1/fnoise 367 Flux pinning 41, 103, 127, 135, 277, Pulsed laser deposition 241 286, 307, 323, 327, 373 AC susceptibility 1 Scanning electron microscopy 241 Anisotropic superconductor 1, 71, 82, Ginzburg-Landau theory 263 Single-crystal growth 51, 185, 205,219 103, 379 Glassy state 307 -of YBCO 291 Applications of high-7, Grain alignment (texturing) 93, 185 Specific heat 205 superconductors 199 Granular superconductivity 28, 71, 345 Specific heat at 7. 51 Standard free energy change 269 Band structure 230, 355 High pressure effect 64, 171 Structural phase transition 205 Binding energy 171 Hole concentration 177 Structure Bitter technique 323, 327 HREM 161, 291 -of BaSrCuO, o ,CO; 335 Bogoliubov—de Gennes equations 109 -of ( Pb,Cu )Sr, (C a,Y yCu,0, — 35 Bose condensation 82 Impedance 28 -of T1,Ba,CuO, 219 Irradiation effect 286 47 -of YBa,Cu,0, C60 compounds 205, 352 Irreversibility line 225 -of YBa,Cu,0, fall 185, 390 Carrier concentration 230, 355 Substitution effects 177 Coating 199 Lattice parameters -in (Pb,Cu)Sr,(Ca,Y )Cu,0,7_; 35 -of T1,Ba,CuO, 219 Coherence length 195 -in Y,_,Pr,Ba,Cu,0,_; 64 Levitation 41 Collective pinning 127 -in YBCO 135 Lower critical field H,, 103, 195, 373 Critical current density 127, 135, 157, Substitution effects of Ag and Te 161, 195, 199, 277, 286, 307, 345 -in YBa,Cu,O, 345 Magnetic phase diagram 383 Critical state model 157 Surface barrier 277, 345 Magnetization 135, 307 Cu-O chains 145 Synthesis -of Ba,_,.K,BiO, 373 Cu-O planes 93, 145,171,177 -of BaSrCuO,, ,.CO; 335 -of Bi,Sr,CaCu,O0g,5 103, 127 -of Bi,Sr,CaCu,O,, 258 -of T1,Ba,CaCu,0, 379 Decomposition pressure 269 -of Y ,Ba,Cu,0;_; 241 Magnetoresistance 93 -of YBa,Cu;0,_; 185 Metal-insulator transition 87 Electrical resistivity 28, 51, 93, 145, 258, -of YBCO 291 Microwave absorption 51, 71,225 301 Modulated structures 263 -of Ba,_,K,BiO, 195 Thermal conductivity MOssbauer spectroscopy 383 Electronic structure 230, 352 -of YBa,Cu,0, oil 301 Emery Hamiltonian 171 Thin films 28, 93, 157, 263 Neutron diffraction 335, 383 EMF measurement Normal-state properties 64, 87, 355 —of Bi,Sr,CaCu,O,, 258 —on Ln,CuO, (Ln=Nd,Sm,Eu) 269 -of Y 1 Ba»Cu,;07_; 241 Energy gap 109 -of YBa,Cu,0, 47 O-T transition 59 -of YBa,Cu,0,_, 161 Oxygen ordering 59 Fermisurface 230 Oxygen stoichiometry 145, 301, 390 Tunneling 87 Fietz—Webb scaling law 286 Twin boundaries 277, 291, 327 Fluctuation effects 1, 82 Pair breaking 64, 263 Flux creep 307 Penetration depth 1, 82 Upper critical field H,, 195, 373 Flux dynamics 41, 367 Percolation model 390 Flux lattice 1,225,379 Phase diagram 59, 145 Weak links 390 -in T1,Ba,CaCu,Og, , 323 Phonon spectrum 239 -in YBaCuO 327 Photoemission spectra Flux melting 367 -of Bi,Sr,CaCu,O¢, 5 239 PHYSICA |: Physica C 195 (1992) 405 North-Holland Materials Index to Volume 195 Ba, _,K,BiO; ( Pb,Cu )Sr, (C a,Y )Cu,0, _ —substitution effects 64 -electrical resistivity 195 -structure 35 YBa,Cu,0, —magnetization 373 —substitution effects 35 —structure 47 BaSrCuOQ,, ,.CO; —thin films 47 -structure 335 T1,Ba,CaCu,O¢, , YBa,Cu,0, = -synthesis 335 -flux lattice 323 —structure 185, 390 Bi,Sr,CaCu,Og4 5 T1,Ba,CaCu,0, —synthesis 185 —magnetization 103, 127 —magnetization 379 —-thermal conductivity 301 -photoemission spectra 239 T1,Ba,CuO, YBa,Cu,0, = Bi,Sr,CaCu,O, -lattice parameters 219 —thin films 161 -synthesis 258 -structure 219 -thin films 258 YBa,Cu,O, —substitution effects of Agand Te 345 Y ,Ba,Cu,;0,_; -synthesis 241 YBaCuO Ln ,CuO, —EMF measurement 269 -thin films 241 —flux lattice 327 Y,_,Pr,Ba,Cu,07_;

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