PHYSICA ( ELSEVIER Physica C 258 (1996) 395-397 Author Index to Volume 258 Abrikosov, A.A., On the c-axis conductivity and superconduc- Dobrosavljevié-Gruji¢, L., see Proki¢é, V., 258, 331 tivity of YBa,Cu,O, as function of x, 258, 53 Dosanjh, P., see Casalta, H., 258, 321 Adachi, S., see Wu, X.-J., 258, 143 D’yachkova, T., see Podlesnyak, A., 258, 159 Andersen, N.H., see Casalta, H., 258, 321 Asomba, G.C., Effective Hamiltonian for high-7. ceramics, Erb, A., E. Walker and R. Flikiger, The use of BaZrO, cr- G2; lu, Ox... By W cibles in crystal growth of the high-7. superconductors. Progress in crystal growth as well as in sample quality, 258, Barus, A.M.M. and J.A.T. Taylor, Development of surface 9 orientation of YBa,Cu,O,_, as a function of particle size distribution, firing time and temperature, 258, 308 Faran, O. and V. Volterra, Metal—insulator transition and super- Bauer, P., C. Rossel, E.J. Williams, R. Berger, J. Daniel, B. conductivity in the LiTi,_ ,.M,O, (M = B,Ni) spinel system, Irmer, M. Kraus, G. Kreiselmeyer, G. Saemann-Ischenko 258, 373 and J. Karpinski, Visualization of columnar defects in super- Fauth, F., see Podlesnyak, A., 258, 159 conductors, 258, 84 Fischer, ©., see Cheggour, N., 258, 21 Benoit, W., see van der Beek, C.J., 258, 105 Flikiger, R., see Cheggour, N., 258, 21 Berger, R., see Bauer, P., 258, 84 Flikiger, R., see Erb, A., 258, 9 Bobrovskii, V., see Podlesnyak, A., 258, 159 Friend, C.M., J. Tenbrink and D.P. Hampshire, Critical current Bodi, A.C., I. Kirschner, R. Laiho and E. Lahderanta, Observa- density of Bi,Sr,Ca,Cu,O; monocore and multifilamentary tion of vortex-glass fluctuations on YBCO ceramics at ul- wires from 4.2 K up to 7, in high magnetic fields, 258, 213 tralow fields near T., 258, 137 Fujikami, J., see Kobayashi, S.-i., 258, 336 Borri, C.A., see Paracchini, C., 258, 222 Fung, P.C.W., see Lam, C.C., 258, 253 Bouquet, V., see Cheggour, N., 258, 21 Furrer, A., see Podlesnyak, A., 258, 159 Casalta, H., P. Schleger, P. Harris, B. Lebech, N.H. Andersen, Gabovich, A.M. and A.I. Voitenko, Influence of inelastic quasi- R. Liang, P. Dosanjh and W.N. Hardy, Neutron-scattering particle scattering on thermodynamic and transport proper- determination of the structural parameters versus oxygen ties of high-7, oxides, 258, 236 content of YBa,Cu,O,, , single crystals, 258, 321 Genoud, J.-Y., see Podlesnyak, A., 258, 159 Cheggour, N., A. Gupta, M. Decroux, R. Flikiger, ©. Fischer, Golubov, A.A., A.V. Ustinov and S. Shokhor, Interaction be- H. Massat, P. Langlois, V. Bouquet, R. Chevrel and M. tween fluxons in lateral Josephson junction stacks, 258, 379 Sergent, Promising critical current density in the Chevrel Goshchitskii, B., see Podlesnyak, A., 258, 159 phase superconducting wires, 258, 21 Gray, K.E., see Ren, Z.F., 258, 129 Chen, L., see Nie, J.C., 258, 183 Gritzner, G., see Konig, W.T., 258, 175 Cheong, S.-W., see Herbsommer, J.A., 258, 169 Gupta, A., see Cheggour, N., 258, 21 Chevrel, R., see Cheggour, N., 258, 21 Chow, J.C.L., see Lam, C.C., 258, 253 Hampshire, D.P., see Friend, C.M., 258, 213 Christen, D.K., see Ren, Z.F., 258, 129 Hardy, W.N., see Casalta, H., 258, 321 Christensen, N.E., see Rodriguez, C.O., 258, 360 Harris, P., see Casalta, H., 258, 321 Hasan, M.K. and J.S. Kouvel, Remanent vortex flux from Daniel, J., see Bauer, P., 258, 84 rotational magnetic states of a polycrystalline superconduc- D’ Anna, G., see van der Beek, C.J., 258, 105 tor, 258, 72 Daum, T., see Sakeek, H.F., 258, 1 Hasegawa, M., E. Ohshima, M. Kikuchi, K. Hiraga, Y. Mat- Decroux, M., see Cheggour, N., 258, 21 sushita and H. Takei, A new high-7, cuprate superconductor Deltour, R., see Ye, M., 258, 95 Tl, Ba;Cu,O,: growth, structure and superconductivity, 258, Di Cicco, A. and F. Sperandini, Cu-O-—Cu in-plane angle distri- 341 bution in layered superconductors probed by EXAFS, 258, Hayashi, A., see Tamura, H., 258, 61 349 Henggeler, W., see Podlesnyak, A., 258, 159 396 Author Index to Volume 258 Herbsommer, J.A., J. Luzuriaga and S.-W. Cheong, Vortex glass Koshizuka, N., see Wu, X.-J., 258, 143 melting in single crystal La, g55Sto97;CuO,, 258, 169 Kouvel, J.S., see Hasan, M.K., 258, 72 Hettinger, J.D., see Ren, Z.F., 258, 129 Kraus, M., see Bauer, P., 258, 84 Hewat, A.W., see Khasanova, N.R., 258, 227 Kreiselmeyer, G., see Bauer, P., 258, 84 Hirabayashi, I., see Hyun, O.B., 258, 365 Laffez, P., see Wu, X.-J., 258, 143 Hiraga, K., see Hasegawa, M., 258, 341 Lahderanta, E., see Bédi, A.C., 258, 137 Horie, Y., A.A.A. Youssef, T. Oku, J. Maneki, T. Nomiyama, Laiho, R., see Bédi, A.C., 258, 137 T. Miyazaki and L. Rinderer, Thermally assisted flux flow Lam, C.C., J.C.L. Chow, P.C.W. Fung and H.M. Shao, Observa- excited by ultrasound in superconducting thin films, 258, tion of a screw dislocation in the Hg-1223 superconductor 293 under a transmission electron microscope, 258, 253 Huang, M.Q., see Nie, J.C., 258, 183 Langlois, P., see Cheggour, N., 258, 21 Hyun, O.B., M. Yoshida, T. Kitamura and I. Hirabayashi, Peak Lebech, B., see Casalta, H., 258, 321 effect, oxygen deficiency, and scaling behavior of magneti- Levin, G.A. and K.F. Quader, Spin susceptibility and specific zation for YBa,Cu,0,_, crystals prepared by top-seeded heat of bi-layer high-7. cuprates: on the origin of scaling solution growth, 258, 365 and universality, 258, 261 Ihara, H., see Ogino, M., 258, 384 Li, L., see Nie, J.C., 258, 183 Indenbom, M.V., see van der Beek, C.J., 258, 105 Liang, R., see Casalta, H., 258, 321 Irmer, B., see Bauer, P., 258, 84 Liu, G.R., see Nie, J.C., 258, 183 lyo, A., see Ogino, M., 258, 384 Lohle, J., J. Karpinski, H. Schwer and P. Wachter, Hall effect Izumi, F., see Khasanova, N.R., 258, 227 measurements on YBa,Cu,Og, single crystals, 258, 279 Luzuriaga, J., see Herbsommer, J.A., 258, 169 Jansen, A.G.M., see Ye, M., 258, 95 Maneki, J., see Horie, Y., 258, 293 Jin, C.-Q., see Wu, X.-J., 258, 143 Massat, H., see Cheggour, N., 258, 21 Jin, X., see Tian, W., 258, 153 Matsumoto, T., see Koguchi, K., 258, 47 Kaneko, T., see Kobayashi, S.-i., 258, 336 Matsushita, Y., see Hasegawa, M., 258, 341 Karkin, A., see Podlesnyak, A., 258, 159 Mawatari, Y., A. Sawa and H. Obara, Critical state of Karpinski, J., see Bauer, P., 258, 84 YBa,Cu,O,, disc in perpendicular fields, 258, 121 Mehbod, M., see Ye, M., 258, 95 Karpinski, J., see Lohle, J., 258, 279 Kato, M., K. Shiota and Y. Koike, Metal—insulator transition Meinhold, R., see Williams, G.V.M., 258, 273 and spin gap in the spin-1/2 ladder system Sr,,_,A,Cu,, Methfessel, M.S., see Rodriguez, C.O., 258, 360 O,, (A = Ba and Ca), 258, 284 Midberg, E., see Podlesnyak, A., 258, 159 Kato, T., see Kobayashi, S.-i., 258, 336 Miller, D.J., see Ren, Z.F., 258, 129 Kawai, T., see Koguchi, K., 258, 47 Mirmelstein, A., see Podlesnyak, A., 258, 159 Khan, M.K.R., H. Tanabe, I. Tanaka and H. Kojima, Anisotropic Miyazaki, T., see Horie, Y., 258, 293 electric resistivity of superconducting La, ,Ba,CuQ,_ ; Murray, D.W. and O.P. Sushkov, The incoherent part of the single crystals, 258, 315 spin-wave polarization operator in the t-J model, 258, 389 Khasanova, N.R., F. Izumi, E. Takayama-Muromachi and A.W. Nie, J.C., L. Chen, T. Yang, M.Q. Huang, P.J. Wu, G.R. Liu Hewat, Crystal structure of the superconductor Ca,Sr, and L. Li, Steep step edge YBa,Cu,O, Josephson junctions Cu ,GaO, synthesized at high pressure, 258, 227 using Cr masks, 258, 183 Khlybov, E., see Podlesnyak, A., 258, 159 Nomiyama, T., see Horie, Y., 258, 293 Kikuchi, M., see Hasegawa, M., 258, 341 Kirschner, I., see Bédi, A.C., 258, 137 Obara, H., see Mawatari, Y., 258, 121 Kiss, T., see Yamafuji, K., 258, 197 Ogino, M., T. Watanabe, H. Tokiwa, A. Iyo and H. Ihara, Hall Kitamura, T., see Hyun, O.B., 258, 365 effect of superconducting copper oxide, Cu-1234, 258, 384 Kobayashi, S.-i., T. Kaneko, T. Kato, J. Fujikami and K.-i. Sato, Ohshima, E., see Hasegawa, M., 258, 341 A novel scaling of magnetic field dependencies of critical Oku, T., see Horie, Y., 258, 293 currents for Ag-sheathed Bi-2223 superconducting tape, 258, 336 Paracchini, C., L. Romano, C.A. Borri and M. Salvato, Current Koguchi, K., T. Matsumoto and T. Kawai, Probing of the and field independent dissipation in a BSCCO superconduct- density of states near the Fermi level in (Ca,Sr)CuO, infinite ing film, 258, 222 layer thin films by STM/STS, 258, 47 Podlesnyak, A., A. Mirmelstein, V. Bobrovskii, V. Voronin, A. Koike, Y., see Kato, M., 258, 284 Karkin, I. Zhdakhin, B. Goshchitskii, E. Midberg, V. Zubkov, Kojima, H., see Khan, M.K.R., 258, 315 T. D’yachkova, E. Khlybov, J.-Y. Genoud, S. Rosenkranz, Konig, W.T., G. Gritzner, M. Reissner and W. Steiner, Influ- F. Fauth, W. Henggeler and A. Furrer, New elaboration ence of the Tl-content on the properties of Bi-doped Tl-1223 technique, structure and physical properties of infinite-layer superconductors, 258, 175 Sr,_ ,Ln,CuO, (Ln = Nd, Pr), 258, 159 Author Index to Volume 258 397 Prokié, V. and L. Dobrosavljevi¢-Gruji¢, Oscillations of mag- (Ba Sr, _ ,),Ca,Cu,0, (x = 0.1, 0.2) superconductors, 258, netic moment in layered superconductors, 258, 331 153 Tokiwa, H., see Ogino, M., 258, 384 Quader, K.F., see Levin, G.A., 258, 261 Ueda, Y., see Tamura, H., 258, 61 Reissner, M., see Konig, W.T., 258, 175 Ustinov, A.V., see Golubov, A.A., 258, 379 Ren, Z.F., C.A. Wang, J.H. Wang, D.J. Miller, D.K. Christen, Van der Beek, C.J., M.V. Indenbom, G. D’Anna and W. Benoit, J.D. Hettinger and K.E. Gray, Composition and phase devel- Nonlinear ac susceptibility, surface and bulk shielding, 258, opment of epitaxial superconducting Tl97gSrB, i6Bg ao 4 105 Ca,Cu,0,_, thin films by laser ablation and post anneal- Van Vuong, N., Two-peak effect of the high-7, superconductor ing, 258, 129 intergrain AC-susceptibility measured in a superposed DC Rinderer, L., see Horie, Y., 258, 293 and AC field, 258, 77 Rodriguez, C.O., R. Weht, M. Weissmann, N.E. Christensen Voitenko, A.I., see Gabovich, A.M., 258, 236 and M.S. Methfessel, Surface effects on the electronic struc- Volterra, V., see Faran, O., 258, 373 ture of Bi2201, 258, 360 Voronin, V., see Podlesnyak, A., 258, 159 Romano, L., see Paracchini, C., 258, 222 Rosenkranz, S., see Podlesnyak, A., 258, 159 Wachter, P., see Lohle, J., 258, 279 Rossel, C., see Bauer, P., 258, 84 Walker, E., see Erb, A., 258, 9 Wang, C.A., see Ren, Z.F., 258, 129 Saemann-Ischenko, G., see Bauer, P., 258, 84 Wang, J.H., see Ren, Z.F., 258, 129 Sakeek, H.F., T. Daum, R. Scharnweber and M. Schilling, Wang, Y. and J.-S. Zhu, Cu 2p core level spectra in Bi system Magnetic-field dependence of microwave properties of superconductors, 258, 101 ramp-type Josephson junctions with PrBa,Cu,O, barriers, Wang, Y.N., see Tian, W., 258, 153 ae, 1 Watanabe, T., see Ogino, M., 258, 384 Salvato, M., see Paracchini, C., 258, 222 Weht, R., see Rodriguez, C.O., 258, 360 Sato, K.-i., see Kobayashi, S.-i., 258, 336 Weissmann, M., see Rodriguez, C.O., 258, 360 Sawa, A., see Mawatari, Y., 258, 121 Williams, E.J., see Bauer, P., 258, 84 Scharnweber, R., see Sakeek, H.F., 258, 1 Williams, G.V.M. and J.L. Tallon, Ion size effects on 7, and Schilling, M., see Sakeek, H.F., 258, 1 interplanar coupling in RBa,Cu,O,_ ;, 258, 41 Schleger, P., see Casalta, H., 258, 321 Williams, G.V.M., M. Staines, J.L. Tallon and R. Meinhold, Schroeder, J., see Ye, M., 258, 95 NMR and transport studies of Y,Ba,Cu,0,,_; having Schwer, H., see Lohle, J., 258, 279 different 7. values from different synthesis conditions, 258, Sergent, M., see Cheggour, N., 258, 21 273 Shao, H.M., see Lam, C.C., 258, 253 Wu, P.J., see Nie, J.C., 258, 183 Shiota, K., see Kato, M., 258, 284 Wu, X.-J., C.-Q. Jin, P. Laffez, T. Tatsuki, T. Tamura, S. Shokhor, S., see Golubov, A.A., 258, 379 Adachi, H. Yamauchi and N. Koshizuka, New *‘02(n — 1)n”’ Sperandini, F., see Di Cicco, A., 258, 349 homologous series consisting of superconducting copper Staines, M., see Williams, G.V.M., 258, 273 oxyhalide of the Sr-Ca—Cu—O-Cl system, 258, 143 Steiner, W., see Konig, W.T., 258, 175 Wyder, P., see Ye, M., 258, 95 Sushkov, O.P., see Murray, D.W., 258, 389 Yamafuji, K. and T. Kiss, A new interpretation of the glass— Takayama-Muromachi, E., see Khasanova, N.R., 258, 227 liquid transition of pinned fluxoids in high-7, superconduc- Takei, H., see Hasegawa, M., 258, 341 tors, 258, 197 Tallon, J.L., see Williams, G.V.M., 258, 273 Yamauchi, H., see Wu, X.-J., 258, 143 Tallon, J.L., see Williams, G.V.M., 258, 41 Yang, T., see Nie, J.C., 258, 183 Tamura, H., A. Hayashi and Y. Ueda, Phase diagram of Ye, M., J. Schroeder, M. Mehbod, R. Deltour, A.G.M. Jansen La,NiO,,; (0< 6<0.18). II. Thermodynamics of excess and P. Wyder, Magnetic-field dependence of the thermal oxygen, phase transitions (0.06 < 6 < 0.11) and phase segre- activation energy in epitaxial YBa,Cu,0,_, thin films, gation (0.03 < 6 < 0.06), 258, 61 258, 95 Tamura, T., see Wu, X.-J., 258, 143 Ye, Z.M., see Tian, W., 258, 153 Tanabe, H., see Khan, M.K.R., 258, 315 Yoshida, M., see Hyun, O.B., 258, 365 Tanaka, I., see Khan, M.K.R., 258, 315 Youssef, A.A.A., see Horie, Y., 258, 293 Tatsuki, T., see Wu, X.-J., 258, 143 Taylor, J.A.T., see Barus, A.M.M., 258, 308 Zhdakhin, I., see Podlesnyak, A., 258, 159 Tenbrink, J., see Friend, C.M., 258, 213 Zhu, J.-S., see Wang, Y., 258, 101 Tian, W., J.S. Zhu, X. Jin, Z.M. Ye and Y.N. Wang, Mechani- Zhu, J.S., see Tian, W., 258, 153 cal dissipation behavior of partial melt (Tl, Pb);) Zubkov, V., see Podlesnyak, A., 258, 159 NH, Pe PHYSICA ( i ELSEVIER Physica C 258 (1996) 398-399 Analytic Subject Index to Volume 258 AC susceptibility of superconductors 137 -of LiTi,_ ,.M,O, 373 Magnetic field dependence 336 AC susceptibility 77 -—of RBa,Cu,0,_;5 41 Magnetic susceptibility 105 Ac susceptibility 105 -of Y,Ba,Cu,0,5_ 5 273 —in Sr,4_,A,Cu,,0,, 284 -of La, g5Srg 975;CuO, 169 -of YBa,Cu,0,_ ; thin films 293 —of RBa,Cu,0,_; 41 Activation energy 169 Electron—phonon coupling 236 Magnetization Angle-resolved photoemission 53 Electron-doped superconductors 159 —calculation of 331 Annealing of Y,Ba,Cu,O0,_ 5 single crys- Electronic structure -of (Tly ;Pb) ;XBa,Sr,_ ,),Ca,Cu,0, 153 tals 9 —of Bi2201 360 —of YBa,Cu,O,, film 121 Antiferromagnetic order 389 Energy gap 236 Magnetoresistance Atomic force microscopy —of BSCCO film 222 —of 2H-NbSe, 84 -of YBa,Cu,0O,_; thin films 95 Fluctuation effects 41 —of Bi,Sr,CaCu,O,,, 84 Melt processing Flux density -of YBa,Cu,O, 84 -of YBa,Cu,0,_, 308 ~-in YBa,Cu,0O, 72 Metal-insulator transition Flux lattice 293 —in LiTi,_ ,.M,O, 373 BCS model 30 Flux pinning 77, 95, 169, 197, 213, 293, —in Sr,4_ ,A,Cu,,0,, 284 331 Mixed state 137 —in (T1, ;Pb) ;XBa,Sr,_ ,),Ca,Cu,0, 153 Charge transfer 30 ~in T1,Ba,Cu,O, 341 . Multilayers 47 Chevrel phase 21 -in YBa,Cu,0,_ 5 crystals 365 Critical current density 77 Neutron diffraction —in chevrel phase wires 21 —of Sr,_ ,Ln,CuO, 159 Geometrical irreversibility 105 —of Ag-sheathed Bi-2223 tape 336 -—of YBa,Cu,0,, , single crystals 321 Glass-—liquid transition 197 —of Bi,Sr,Ca,Cu,O; wire 213 NMR 273 Glassy state 137 —of PrBa,Cu,O, barrier | Non-degenerate fermions 261 Grain alignment 213 —of T1 Bip »5;Bay 4Sr, «Ca ,Cu,0, 175 Normal-state properties -in YBa,Cu,0,_ , 308 -of Tlo7gBi6Bgao2 4C7arSCur,0o,_ 5 -of La,_ ,Ba,CuO,_ 5 single crystals 315 Granular superconductivity 77 thin films 129 —of YBa,Cu,O) film 121 Order parameter 236 —of YBa,Cu,O,_,; thin films 95 Hall effect Oxygen stoichiometry Critical state 121 —of (Cu,_ ,-5C,)Ba,Ca,Cu,0, 384 —in YBa,Cu,0,,, single crystals 321 CuO chains 53 -—of YBa,Cu,QO, single crystals 279 -in YBa,Cu,0,_ 5 crystals 365 CuO planes 53 —of La,NiO,,; 61 Influence of magnetic field 1 Pair breaking 236 Irreversibility line 105 Defect structures 253 Peak effect —-in YBa,Cu,0,_ 5 crystals 365 Jahn-Teller effect 30 EXAFS Percolative transition Josephson junction 1, 379 —of La,CuO, 349 —of pinned fluxoids 197 Josephson vortices —of La,_ ,Ba,CuO, 349 Phase diagram —calculation of interaction 379 —of La,_ ,Sr,CuO, 349 -—of La,NiO,,; 61 Electrical resistance -of YBa,Cu,0,, , single crystals 321 —of BSCCO film 222 Local density approximation 360 Phase transition 236 Electrical resistivity Lower critical field H., 105 Proximity effect 331 —of (Cu,_ ,_ 5C,)Ba,Ca,Cu,0, 384 Lower critical field Proximity effects 41 ~of La,_ ,Ba,CuO,_; single crystals 315 —of T1,Ba;Cu,0, 341 Pseudo gap 273 Analytic Subject Index to Volume 258 399 RVB model 315 Step-edge junction 183 —of T1, Big »5Bay 4Sr, «Ca,Cu,0, 175 Rietveld refinement 227 Structural phase transition -of To 7gBig¢Ba2o SsCat,C,u,O g_ 5 Rotational magnetization vector 72 —of La,NiO,,; 61 thin films 129 Structure —of YBa,Cu,0, 183 Scaling law 197 —of Ca,Sr,Cu,GaO, 227 Scanning electron microscopy -—of La,CuQ, 349 —of (Tlo ;Pb) ;XBa,Sr,_ ,),Ca,Cu,0, 153 -—of La,_ ,Ba,CuO, 349 Thermoelectric power Scanning tunneling microscopy . —of La,_ ,Sr,CuO, 349 ~in Sr,,_ ,A,Cu,,0,, 284 —of (Cay 3,Sr97)CuO, 47 -—of Sr-Ca—Cu-O-Cl 143 -of Y,Ba,Cu,0,>5_5 273 —of 2H-NbSe, 84 —of Sr,_ ,Ln,CuO, 159 Thin films -of Bi,Sr,CaCu,O0,,, 84 —of Tl, Ba;Cu,O, 341 —of (Cay ,,St97)CuO, 47 -of YBa,Cu,O, 84 —of YBa,Cu,0,, , single crystals 321 —of SrCuO, 47 t-J model 389 Screw dislocations 253 Structures Single crystal growth —of 2H-NbSe, 84 Transmission electron microscopy -of REBa,Cu,0,_5; 9 —of Bi,Sr,CaCu,O,,, 84 —of HgBa,Ca,,_ ,Cu,O,,,,5-, 253 -of Y,_,Pr,Ba,Cu,0,_,; 9 —of YBa,Cu,O, 84 Tunneling 47, 53 Single-crystal growth Substitution effects 41 Type II superconductors 331 -of T1,Ba;Cu,0, 341 —in LiTi,_ ,.M,O, 373 Specific heat 261 Surface barrier 105 Spin fluctuations Surface effects 360 Ultrasound attenuation 293 —calculation 389 Synthesis Spin gap 284 —of Ca,Sr,Cu,GaO, 227 Spin susceptibility —of Sr-Ca—Cu-—O-Cl 143 XPS -of TISr,(Lu,_ ,Ca,)Cu,0, 261 —of Sr,_ ,Ln,CuO, 159 —of Bi,Sr, gLag,Cu,_ ,Co,O, 101 PHYSICA ( ELSEVIER Physica C 258 (1996) 400-401 Materials Index to Volume 258 Ag-sheathed Bi-2223 tape —structure 349 —lower critical field 341 —critical current density 336 La,_ ,Ba,CuO,_ ; single crystals —single-crystal growth 341 —electrical resistivity 315 —structure 341 BSCCO film —normal-state properties 315 (To 5Pb,) ;XBa,Sr,_ ,),Ca,Cu,0, —electrical resistance 222 La,_ ,Sr,CuO, —flux pinning 153 —magnetoresistance 222 —eXAFS 349 —magnetization 153 Bi2201 —structure 349 —scanning electron microscopy 153 —electronic structure 360 LiTi,_ .M,O, TISr,(Lu,_ ,Ca,)Cu,0O, Bi,Sr, gla, ,Cu,_ ,Co,O, —electrical resistivity 373 —spin susceptibility 261 -xPS 101 —metal-insulator transition 373 Bi,Sr,Ca,Cu,O; wire s —substitution effects 373 —critical current density 213 Y,_ ,Pr,Ba,Cu,0,_ 5 Bi,Sr,CaCu,O,, , PrBa,C,uO, barrier —single crystal growth 9 —atomic force microscopy 84 —critical current density | Y,Ba,Cu,0,;5_5 —scanning tunneling microscopy 84 —electrical resistivity 273 —structures 84 —thermoelectric power 273 RBa,Cu,0,_; YBa,Cu,O, —electrical resistivity 41 Ca,Sr,Cu,Ga0, —synthesis 183 —magnetic susceptibility 41 —structure 227 YBa,Cu,O,, film REBa,Cu,0,_; —synthesis 227 critical current density 121 —single crystal growth 9 (Cay 3,Sro 7 CuO, —magnetization 121 —scanning tunneling microscopy 47 YBa,Cu,0,, , single crystals —thin films 47 Sr—Ca—Cu-O-Cl —neutron diffraction 321 (Cu,_ ,- 5C,)Ba,Ca,Cu,O, —structure 143 —oxygen stoichiometry 321 —electrical resistivity 384 —synthesis 143 —phase diagram 321 —hall effect 384 St\A 4,Cu-z40 4, —structure 321 —magnetic susceptibility 284 YBa,Cu,0, —metal-insulator transition 284 HgBa,Ca,,_ \Cu,O, ne 2~y —flux density 72 —thermoelectric power 284 —transmission electron microscopy 253 YBa,Cu,0,_ 5 crystals Sr,_ ,Ln,CuO, 2H-NbSe, —flux pinning 365 —neutron diffraction 159 —atomic force microscopy 84 —oxygen stoichiometry 365 —structure 159 —scanning tunneling microscopy 84 —peak effect 365 —synthesis 159 —structures 84 YBa,Cu,0,_ 5; thin films SrCuO, —critical current density 95 —thin films 47 La,g sS9t7so Cu O, —electrical resistivity 293 —ac susceptibility 169 —magnetoresistance 95 La,CuO, T1, Bi, 55Bay 4Sr, ,«Ca,Cu,0, YBa,Cu,0,_, —eXAFS 349 —critical current density 175 —grain alignment 308 —structure 349 —synthesis 175 —melt processing 308 La,NiO,, 5 Tlo.B7ipg 2 2S) 6Bao 4Ca,Cu3;0o_ 5 thin YBa,Cu,QOg single crystals —oxygen stoichiometry 61 films —hall effect 279 —phase diagram 61 —critical current density 129 YBa,Cu,O, —structural phase transition 61 —synthesis 129 —atomic force microscopy 84 La,_ ,Ba,CuO, Tl, Ba;Cu,O, —scanning tunneling microscopy 84 —eXAFS 349 —flux pinning 341 —structures 84 Materials Index to Volume 258 chevrel phase wires calculation of pinned fluxoids —critical current density 21 —magnetization 331 —percolative transition 197 calculation of interaction calculation —josephson vortices 379 —spin fluctuations 389 NS PHYSICA ( FrCoeEl ELSEVIER Physica C 258 (1996) 402-409 Cumulative Author Index to Volumes 251—258 Abalioshev, A.V., 251, 207 Balbashev, A.M., 256, 371 Bédi, A.C., 252, 22; 253, 115; 258, 137 Abazajian, K., 254, 93 Baltaga, I.V., 251, 50 Boffa, V., 257, 304, 332 Abbas, F., 254, 137, 291 Bandyopadhyay, B., 252, 177 Bohm, M.C., 252, 282 Abraham, R., 255, 113 Bandyopadhyay, S.K., 255, 306, 319 Boiko, Ya.V., 251, 207 Abramov, Yu.A., 254, 189 Baquero, R., 257, 160 Boikov, Ju., 253, 297 Abrikosov, A.A., 258, 53 Barabanov, A.F., 252, 308 Bonabeau, E., 256, 365 Adachi, S., 255, 61; 258, 143 Baran, M., 254, 124 Bonn, D.A., 254, 265 Agassi, D., 257, 61 Barat, P., 255, 306, 319 Borri, C.A., 258, 222 Akamatsu, M., 253, 102 Baratov, A.A., 254, 311 Borz, M., 256, 245; 257, 1 Akao, T., 255, 151 Bardo, R.D., 257, 61 Bougrine, H., 251, 337; 252, 1 Akimenko, A.I., 251, 97 Bari, M.A., 256, 227 Bouquet, V., 258, 21 Akimitsu, J., 255, 157, 193 Barilo, S.N., 254, 181 Braun, H.F., 251, 274; 254, 151; 256, 168, Akinaga, M., 251, 7 Barnole, V., 253, 53 393 Alario-Franco, M.A., 254, 233 Barus, A.M.M., 258, 308 Bravman, J.C., 251, 71 Aldinger, F., 256, 345 Basu, A.N., 255, 319 Brazdeikis, A., 253, 383 Alloul, H., 251, 219 Basu, R.N., 251, 165 Bremer, J., 256, 73 Altshuler, E., 252, 295; 255, 76 Baudenbacher, F., 256, 13, 227 Broussard, P.R., 253, 121 Alvani, C., 257, 304 Bauer, A., 256, 177 Brown, A., 252, 229 Alyoshin, V.A., 255, 173 Bauer, P., 258, 84 Brunner, M., 253, 401; 256, 1; 257, 117 Amador, U., 254, 233 Bauerle, D., 256, 245; 257, 1, 341 Bruzzese, R., 257, 304, 332 Andersen, N.H., 254, 233; 258, 321 Bauernfeind, L., 254, 151; 256, 168 Bryntse, I., 251, 115 André, M.-O., 256, 324 Beduz, C., 254, 193; 256, 378 Buchal, Ch., 253, 63 Andreone, A., 251, 379 Bellot, P.-V., 255, 204 Buchgeister, M., 255, 19 Andrews, G.W., 252, 229 Belouet, C., 256, 291 Bugoslavsky, Yu.V., 257, 284 Anselmi Tamburini, U., 251, 89; 253, 147 Benacka, S., 253, 39 Buhl, D., 257, 151 Antipov, E.V., 253, 259, 401; 255, 173; Bennett, L.H., 251, 361 Bukowski, Z., 254, 331 256, 1; 257, 117 Benoit, W., 256, 324; 258, 105 Bull, M., 253, 199 Arai, M., 257, 264 Beresovsky, V.M., 252, 308 Buzdin, A., 256, 303 Ardashnikova, E.I., 253, 259 Berger, H., 254, 88 Armstrong, A.R., 255, 180 Berger, R., 258, 84 Cabeza, O., 253, | Artemenko, S.N., 253, 373 Berghuis, P., 256, 13 Cai, C.B., 254, 318 Asab, A., 255, 180 Berner, D., 251, 274 Campa, J.A., 251, 175 Asaoka, H., 251, 255 Beyers, R.B., 251, 71 Campbell, A.M., 256, 13, 298 Ashkenazy, V.D., 254, 77 Bhagwat, K.V., 254, 143 Caneiro, A., 253, 339 Asomba, G.C., 258, 30 Bhattacharya, R.N., 251, 105 Canepa, F., 251, 379 Attanasio, C., 255, 239 Bhattacharya, S., 256, 119; 257, 232 Canfield, P.C., 253, 48 Audry, C., 256, 291 Bianconi, A., 251, 383 Cantoni, M., 257, 151 Ausloos, M., 251, 337; 252, 1; 257, 321 Bieger, W., 257, 46 Cao, Y., 251, 216; 255, 1 Awaji, S., 251, 255 Bingert, J.F., 253, 182; 255, 275 Capponi, J.J., 253, 401; 256, 1; 257, 117 Bingham, B.L., 253, 182 Carbotte, J.P., 252, 87 Bist, H.D., 253, 121 Casalta, H., 258, 321 Batanda, M., 256, 39 Blamire, M.G., 256, 227 Castel, X., 255, 281 Baimatov, P.J., 254, 311 Blendell, J.E., 251, 361 Celasco, M., 252, 375 Bajorek, A., 256, 39 Bobrovskii, V., 258, 159 Celotti, G., 254, 342 Balakrishnan, G., 252, 303; 256, 119 Bock, A., 256, 168 Chacon, L., 251, 361 Cumulative Author Index to Volumes 251—258 403 Chaddah, P., 253, 191; 254, 143, 281; 256, Continenza, A., 251, 389 Endoh, Y., 253, 135; 257, 264 90 Cook, S.L., 252, 229 Enomoto, Y., 251, 355: 252. 141: 256. 81 Chadwick, A.V., 253, 147 Coombs, T.A., 256, 298 Erb, A., 257, 371; 258. 9 Chaillout, C., 253, 401; 256, | Copetti, C.A., 253, 63 Evetts, J.E., 256, 13. 227 Chaklader, A.C.D., 252, 67 Coulter, J.Y., 253, 182; 255, 275; 256, 358 Chakoumakos, B.C., 253, 109 Cowen, J.A., 251, 183 Fang, Y., 252. 389 Chambonnet, D., 256, 291 Cuche, E., 256, 324 Faqir, H.. 253. 53 Chan, F.T., 253, 329 Curzon, A.E., 251, 192 Faran, O., 255. 329; 258. 373 Chan, W.C., 252, 203 Fauth, F.. 258. 159 Chandrasekhar Rao, T.V., 256, 119 Dabrowski, B., 252, 13 Feduzi. R.. 251. 156 Chang, G.F., 255, 105 Dahm, T., 253, 334 Feinberg. D.. 256. 303 Chang, H., 251, 126; 252, 333 Dallacasa, V., 251, 156 Fenner. D.B.. 254. 258 Char, K., 252, 348 Daniel, J., 258, 84 Ferdeghini. C.. 251. 61 Che, G.C., 251, 110 Dan’ko, N.V., 252, 313 Filoti. G.. 251, 238 Cheggour, N., 258, 21 D’Anna, G., 258, 105 Finnegan, R.D.. 256. 340 Chen, B., 252, 381 Danyluk, S., 252, 389 Fischer, ©., 258. 21 Chen, C., 251, 405; 254, 281 Da Silva, E.Z., 257, 173 Fisher, L.M.. 251. 50 Chen, F., 251, 216 Daum, T., 258, | Fisher, R.A., 252, 237 Chen, H., 251, 110 Daumling, M., 257, 371 Fisher, S., 254, 193 Chen, H.-Y., 255, 147 Davis, L.E., 254, 137 Flitcroft, M.L., 255, 65 Chen, J.G., 254, 93 De, A., 255, 306 Flodstrém, A.S., 253, 383 Chen, L., 258, 183 Deal, E.E., 254, 93 Flor, G., 251, 89; 254, 359 Chen, L.J., 254, 159 Debuigne, J., 255, 281 Flores, L.E., 255, 76 Chen, X.K., 251, 192 Decroux, M., 258, 21 Flikiger, R., 251, 61; 253, 292; 255, 53, Chen, Y., 255, 30 Degoy, S., 256, 291 113; 256, 283; 257, 371; 258, 9, , 21 Chen, Y.C., 252, 79 De la Fuente, G.F., 253, 391 Foley, M., 256, 387 Chen, Z., 252, 13 Deltour, R., 258, 95 Fontana, F., 251, 379 Cheong, S.-W., 257, 167; 258, 169 Den, T., 255, 37 Forro, L., 254, 88 Chern, G., 253, 97 Denisenko, D.I., 253, 259 Fortini, A., 257, 31 Chermoplekov, N.A., 256, 371 De Pascale, T.M., 251, 389 Foster, C., 251, 15 Chesca, B., 256, 261 De Podesta, M., 253, 199 Fournier, P., 257, 291 Chevrel, R., 258, 21 Dewing, H.L., 251, 165 Fox, S., 257, 332 Chiang, C.K., 251, 361 Di Cicco, A., 258, 349 Francesconi, M.G., 253, 16 Chikate, R.C., 257, 375 Dieckmann, N., 256, 168 Franse, J.J.M., 251, 7; 257, 179 Chiodelli, G., 254, 359 Ding, S.Y., 254, 318 Franzen, H.F., 252, 138 Chizawa, H., 256, 253 Divin, Y.Y., 256, 149 Freeman, A.J., 252, 7 Cho, B.K., 253, 48 Dobrosavljevi¢-Gruji¢, L., 258, 331 Freltoft, T., 252, 229 Choi, E.-J., 254, 258 Doettinger, S.G., 251, 285 Freyhardt, H.C., 251, 366 Chou, P.C., 254, 93 Dong, C., 251, 110 Friend, C.M., 252, 107; 258, 213 Choughule, D.D., 257, 375 Dorosinskii, L.A., 256, 319 Fu, Y.X., 254, 318 Chow, J.C.L., 258, 253 Dosanjh, P., 258, 321 Fuchs, G., 255, 19 Chow, T.C., 255, 311 Dou, S.X., 252, 211 Fujii, H., 257, 143 Christen, D.K., 252, 125; 253, 109, 357; Doyle, R.A., 256, 13 Fujikami, J., 258, 336 258, 129 Dravid, V.P., 255, 247, 257 Fujimori, H., 252, 275 Christensen, N.E., 258, 360 Drew, H.D., 254, 258 Fujiwara, M., 252, 100 Chromik, S., 253, 39 Drzazga, Z., 254, 124 Fukunaga, T., 251, 325 Chryssikos, G.D., 254, 44 Duan, H.M., 253, 271 Fukuyama, H., 257, 299 Chu, C.W., 251, 126, 216; 252, 333; 253, Duvigneaud, P.H., 251, 337 Funahashi, R., 256, 33 329; 254, 207; 255, 1 D’yachenko, A.I., 251, 207 Fung, P.C.W., 255, 136; 256, 95; 258, 253 Chun, S.H., 253, 48 D’yachkova, T., 258, 159 Furrer, A., 258, 159 Cimberle, M.R., 251, 61 Dzhumanov, S., 254, 311 Ciontea, L., 257, 304 Gabovich, A.M., 258, 236 Claeson, T., 253, 297 Edwards, P.P., 253, 16; 255, 180 Gtadezuk, L., 254, 124 Coccorese, C., 255, 239 Ehmann, A., 251, 238; 256, 177 Gaines, J.R., 253, 177 Cohen-Adad, M.Th., 255, 113 Elesin, V.F., 257, 53 Gallop, J.C., 254, 137 Collin, G., 251, 219 Elly, J., 251, 171 Gamari-Seale, E., 254, 44 Cone, G., 252, 375 Emerson, J.P., 252, 237 Gameson, I., 253, 16; 255, 180 404 Cumulative Author Index to Volumes 251-258 Ganesh, K., 253, 89 Han, P.D., 255, 247, 257 Huang, Y.T., 254, 159 Gangopadhyay, A.K., 252, 199 Hanaguri, T., 256, 111 Huang, Z., 253, 254 Ganguly, R., 256, 51 Hardy, V., 257, 16 Hubert, A., 256, 319 Gao, J., 251, 330; 256, 161 Hardy, W.N., 254, 265; 258, 321 Huebener, R.P., 251, 285 Gao, L., 254, 207 Hari Babu, V., 252, 49 Hughes, T., 256, 378 Gapchup, K.M., 257, 375 Harlow, R.L., 257, 125 Hults, W.L., 255, 275 Gardner, J.S., 252, 303 Harris, P., 258, 321 Hunter, B.A., 253, 71 Garg, K.B., 251, 7 Hartford Jr., E.H., 251, 133 Hur, N.H., 253, 109, 351 Gatalskaya, V.I., 254, 181 Hasan, M.K., 252, 173; 254, 323; 258, 72 Hyun, O.B., 258, 365 Gauckler, L.J., 257, 151 Hasegawa, M., 258, 341 Gautier, E., 256, | Hayashi, A., 258, 61 Iavarone, M., 251, 379 Genoud, J.-Y., 257, 371; 258, 159 He, Z.H., 251, 126; 254, 207 Ignatiev, A., 254, 93 Geserich, H.P., 251, 274; 256, 168 Hegde, M.S., 253, 243 Iguchi, I., 257, 99 Ghigna, P., 251, 89; 253, 147; 254, 359 Heinemann, K., 251, 366 Ihara, H., 258, 384 Ghivelder, L., 251, 175 Heinz, E., 251, 171 Ihara, N., 257, 223 Ghosh, A.K., 255, 319 Hellebrand, B., 256, 245; 257, | Ikeda, H., 253, 102 Ghosh, K., 256, 119 Hellman, E.S., 251, 133 Ikuhara, Y., 256, 64 Giannini, E., 251, 61 Hellstrom, E.E., 251, 27; 252, 155; 253, 79; Il’enko, K.V., 251, 50 Gibson, J., 251, 216 255, 266 Inaba, M., 257, 299 Gilabert, A., 251, 171 Henggeler, W., 258, 159 Indekeu, J.O., 251, 290 Giraldo, J., 257, 160 Hensel, B., 255, 113 Indenbom, M.V., 256, 324; 258, 105 Gladyshevskii, R.E., 255, 113 Herbsommer, J.A., 258, 169 Inyushkin, A., 255, 204 Glaser, J., 256, 177 Herbut, I.F., 255, 324 Irmer, B., 258, 84 Goerke, F., 251, 247 Hermann, A.M., 253, 271; 254, 1 Irwin, J.C., 251, 192 Golubov, A.A., 258, 379 Hervieu, M., 254, 33; 257, 195 Ishibashi, T., 257, 99 Gonzalez, J.L., 255, 76 Herzog, R., 256, 13 Ishizuka, M., 252, 339 Gopalakrishnan, I.K., 256, 51 Hettinger, J.D., 258, 129 Isobe, M., 251, 279 Gorbar, E.V., 257, 355 Hewat, A.W., 258, 227 Ito, T., 251, 383 Gordon, J.E., 252, 237 Hewitt, K.C., 251, 192 Itoh, M., 255, 61 Goreatchkovski, E., 252, 27 Higgins, M.J., 257, 232 Ivanov, A.L., 257, 284 Goren, S.D., 252, 177 Hijar, C.A., 252, 13 Iwasaki, H., 251, 255 Goretta, K.C., 253, 194; 256, 387 Hill, M.D., 251, 361 lyo, A., 258, 384 Gorlova, I.G., 255, 131 Hinata, K., 256, 142 Izumi, F., 255, 37; 258, 227 Goshchitskii, B., 258, 159 Hirabayashi, I., 256, 64; 258, 365 Goto, A., 257, 86 Hiraga, K., 258, 341 Jacobson, A., 251, 216 Grasso, G., 251, 61; 253, 292; 255, 53 Hirano, K., 251, 255 Jansen, A.G.M., 258, 95 Gray, K.E., 258, 129 Hirano, N., 254, 249 Jansen, M., 253, 391 Greaves, C., 253, 16 Hirano, T., 256, 220 Je, J.H., 254, 167 Greene, R.L., 254, 175 Hirata, K., 257, 143 Jenkins, R., 257, 332 Griessen, R., 257, 271 Hiroi, Z., 257, 210 Jeon, D.-S., 253, 102 Gritzner, G., 258, 175 Hitchman, M.L., 252, 229 Jeong, G.T., 253, 48 Grivel, J.-C., 256, 283 Hitterman, R.L., 253, 71; 255, 37 Jeremie, A., 255, 53 Groult, D., 257, 16 Hodges, J.P., 253, 16 Jia, S.L., 251, 110 Grovenor, C.R.M., 257, 332 Holesinger, T.G., 253, 182 Jiang, W., 254, 175 Grover, A.K., 256, 119 Homes, C.C., 254, 265 Jiang, X., 254, 175 Gudimenko, V.A., 251, 97 Hong, G.-W., 255, 95 Jiménez, J., 256, 291 Guerrin, L., 251, 219 Hong, Q., 257, 367 Jin, C.-Q., 255, 61; 258, 143 Guilloux-Viry, M., 255, 281 Horie, Y., 258, 293 Jin, X., 258, 153 Guo, Y.F., 251, 337 Horiuchi, K., 257, 25 Johnson, J.M., 253, 182 Gupta, A., 258, 21 Hormg, H.E., 255, 30; 256, 57 Johnston, D.C., 252, 138; 253, 48 Gupta, L.C., 256, 90 Hosoya, S., 253, 135; 257, 264 Jones, H., 257, 332 Gittler, B., 251, 165 Hossain, Z., 256, 90 Jordan, J.-L., 255, 113 Gyorffy, B.L., 251, 263 Hou, S.Y., 254, 258 Jorgensen, J.D., 253, 71; 255, 37 Houssa, M., 257, 321 Jung, G., 254, 77 Hagen, M.R., 256, 387 Hu, J., 256, 387 Jurelo, A.R., 251, 175 Hallstedt, B., 257, 151 Hu, Q.Y., 252, 211 Jiirgensen, H., 252, 229 Hampshire, D.P., 252, 107; 258, 213 Huang, M.Q., 258, 183 Jwo, D.S., 252, 203