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Physica C: Superconductivity 1997: Vol 282-287 Index PDF

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Preview Physica C: Superconductivity 1997: Vol 282-287 Index

Physica C 282-287 (1997) 2675-2689 North-Holland Analytic Subject Index Ay4—,Ca,Cuz404) (A=Sr, La) 991 analysis 679 B-2212 tape 2579 A j4Cur4041 773 analytic theory 1777 BBO 1041. AF correlation 1811 analytical solution 1945 BCS condensation 194 AFM 303, 561, 563, 679 Anderson model 1717 BCS model 1643, 1849 AFM order 1783 Andreev refiection 140, 1691, 1853, 2399, BCS superconductivity 1817 ARPES 999 2411, 2509 BCS theory 367, 1077, 1665, 1819, ARPES-theory 987 angle-resolved photoemission 1673 1909 a- YBCO/LSCO/a-YBCO trilayer 701 angle-resolved photoemission spectroscopy BEDT-TTF 1911 a-axis orientation 607 218, 995, 997 BKBO 985, 1271, 1929, 2457, 2501 a-axis oriented films 605 angular dependence 2045 BPBO 1037, 1929 ab initio 1621, 1639 anisotropic 1595 BSCCO 252, 477, 545, 1093, 1169, 1253, ab-plane 1285 anisotropic dc moment 2271 1339, 1497, 1533, 1985, 2067, 2077, Abrikosov vortices 343, 2503 anisotropic effects 2011 2259, 2607, 2625 ac linear response 2347 anisotropic Heisenberg model 1675 BSCCO-2212 979 ac losses 2035, 2559, 2593, 2603, 2647 anisotropic pairing 1847, 1849 BSCCO/Ag tapes 2297, 2299 ac magnet 2637 anisotropic resistivity 240, 1177 2212-BSCCO single crystals 1561 ac magnetic susceptibility 2329 anisotropic superconductor 1073, 1905 BSCCO small particles 1511 ac magnetization 2383 anisotropic transport 675 BSCCO thin films 2277 ac measurement 2379 anisotropy 146, 319, 665, 957, 1133, BSCO_ 1187 ac method 2045 1207, 1221, 1377, 1943, 1955, 1959, BSSCO/Ag composites 2349 ac penetration depth 2339 1961, 1973, 1981, 1985, 1999, 2009, B-site cation 687 ac resistivity 1161 2029, 2119, 2219, 2223, 2291, 2333, Ba—Bi—O system 443 ac response 2173, 2175, 2229, 2243, 2337, 2345, 2357, 2423 Ba—Ca—Cu oxides 883 2367, 2397 anisotropy of resistivity 1753 Ba—K-—Bi-—O oxide 721 ac susceptibility 843, 867, 1553, 2035, annealing 1243, 1333, 2609 Ba—K-Bi-—O superconductor 723 2037, 2047, 2099, 2181, 2245, 2271, annealing condition 859 Ba—K-Pb-O oxide 1311 2307, 2333, 2347, 2365, 2381, 2389, annealing effect 887 BaBiO; 1931 2395, 2567 anomalous behavior 1437 BaCaCuO 57 ac susceptibility measurement 825 anomalous magnetization 2261 Ba>_( 2,NCi,Zun,),307 _5 1563 achievements 3 antennas 2511 Ba-site 1605 acoustic attenuation 1651 antiferromagnet 1113 Ba-site Pr substitution 1197 acoustic properties 1045 antiferromagnetic 273 Ba substitution 775 activated hopping 1155 antiferromagnetic correlation 1707 BaTiO; 699 activation energy 2075, 2195, 2217, 2365, antiferromagnetic domains 166 BaZrO;, 459 2373 antiferromagnetic fluctuation 1341, 1689 band structure 995, 997, 1621, (acuO, 5)2(AITiO3),, 959 antiferromagnetic order 303, 1371, 1403, 1713 adsorption 1609 1697 Bardeen—Stephen model 2371 aerosol deposition 637 antiferromagnetic phase 1879 barrier 2021 Ag addition 2581 antiferromagnetism 1363, 1383 Bean’s model 1455, 2245 Ag doped 495 apical ions 1067 Bethe ansatz 1723 Ag-doped YBCO 2419, 2647 apical oxygen 1039 Bi 583 Ag-doping 653 applications 3, 399, 403, 407, 411, 415, Bi-12212 867 Ag-plating 497 419, 423, 424, 428 Bi-2201 629, 999, 1211, 1261 Ag substrate 567 Ar atmosphere 431 Bi-2212 323, 383, 387, 467, 839, 841, (Al,C)-1223 509 arrowhead 2007 843, 845, 847, 861, 863, 865, 875, 877, Al-doping 517 Aslamazov—Larkin model 1537 893, 1211, 1301, 1441, 1495, 1955, AlSr,YCu,0, 813 atomic layer epitaxy 105 1965, 1975, 1981, 2007, 2009, 2025, alkaline earth niobates 37 atoms charge states 803 2029, 2041, 2055, 2073, 2125, 2135, alkaline solution 721 attempt time 2243 2143, 2159, 2221, 2279, 2285, 2293, alloy sheath 2557 attenuation 1077 2319, 2331, 2375, 2421, 2423, 2427, a value 1431, 1439 attractive and repulsive Hubbard models 2429, 2561, 2583, 2639 amorphous 681, 861 1703 Bi-22212 2101 amplifier 2507 Auger electron spectroscopy 983 Bi-2222 1265 2676 Analytic Subject Index Bi-2223 511, 851, 853, 855, 1211, 2339, Bloch wave oscillation 2417 Ce-based cuprates 943 2365, 2569, 2573, 2577, 2585, 2595, Bogoliubov equation 1861 Ce-doping 1933 2635, 2651 Bogoliubov quasiparticles 1733 CeIn; 303 (Bi,Pb)-2223 869, 879, 2199 bond length 913 CeO, buffer layer 613 Big(sr0,75 Lag.25)gCusO, 829 bond-order wave 1741 CeRu, 2043 Bi-2212/Ag tape 2567, 2617 borocarbide superconductor 1055, 1315 ceramic components 2639 Bi-2223/Ag tape 1171, 1207, 2109, 2205, borocarbides 69, 355, 573, 715, 717, ceramics 1593, 2091, 2569 2213, 2269, 2271, 2283, 2289, 2559, 1317, 1327, 1409, 1633, 1939, 1941 chain cuprate 493 2571, 2591, 2593, 2601, 2603, 2605, boron—nickel compound 1667 channeling 555 2611, 2615, 2619 Bose-Einstein condensation 194, 1629, charge carrier density 747 Bi-2212/Ag thick film 2609 1817, 1821 charge correlation function 1871 Bi-2223/Ag wire 2597, 2629 Bose-glass transition 2053 charge-density distribution 971 Bi-2212 crystals 437, 1161, 2167, 2187, bosonization 1109 charge-density waves 260, 955, 1345, 2233, 2241, 2431, 2437 bound states 1769 1747, 1827 Bi-22230/Ag tape 2587 boundary condition 1761 charge distribution 98] Bi-2212 precursor powders 2617 buckling angle 1645 charge dynamics 12 Bi-2201 single crystals 1307 buffer layer 607, 641, 681, 695 charge fluctuation 1391 Bi-2212 single crystals 825, 1205 bulk ceramic 2585 charge order 174, 1393 Bi-2212 tape 2621 bulk high 7, superconducting magnet charge reservoir 1243 Bi-2223 tape 424, 1995, 2555, 2563 1863 charge—spin separation 1675, 1747 Bi-2223 wire 2627, 2643 bulk materials 819 charge transfer 969, 1245 Bi-Sr—Cu-—O system 439 bulk pinning 2241 charge transfer complexes 1899 Bi-Sr—Cu oxides 993 bulks combination 2633 charge transfer mechanism 198 Bi-based cuprate 94] charger transport 1641 Bi-based high-7, cuprates 1499 chemical control 915 Bi-based superconducting single crystals Ce6o 737, 739, 1921 chemical diffusion 621 1209 c-axis magnetoresistance 156] chemical etching 629 Bi-based superconductors 473, 1003 C,,Cu, _ ,BazCa,,_ ;Cu,O, 857 chemistry 27 CDW&SDW_ 1233 Bi-based system 859 circular defect 2361 Bi-based tape 2153 C+implantation 2547 circularly polarized microstrip antenna Bi2233 columnar defects 1305 (CU,X)Sr,Ca,,_ ;Cu,O, 949 2513, 2515 Bi-containing cuprates 873 Ca,;_,A,CuO, 77 ~ Classification 453 Bi cuprate 2613 Ca; _,Cd,LaBaCu307_, 2129 closed loop resonator 2523 Bi(Pb)2201 1419 Ca doping 49 Co-doping 833 Bi2223 pinning 1173 CaF, and Cu 639 co-evaporation 107 Bi”2212 single crystals 476 CaLa,_,Pr,BaCu,;07 807 coating 497 BiSrBaCaCuO 1303 Ca,PbO, 2555, 2595 coefficient 831 BiSrCaCeCuO_ 1259 Ca,RuO, 206, 729 coexistence of superconductivity and BiSrCaCuO 1155, 1159, 1281, 1341 Ca-substitution 793 magnetic orders 73 BiSrCaCuO crystals 989 calorimetry 733 coherence length 1459, 1463, 1973 BizSr,Ca; CuO, single crystals 1589 capping layer thickness 695 cold deformation 2213 BiSrCaLuO 1125 carbon 733 cold-rolling 567 BiSrCaYCuO single crystals 1165 carbon-nanotube embedded 2279 collapse of shear modulus 2183 BizSr,CaCu,Og 1489, 1517, 1519 carbonate 66, 895 collective creep 2251, 2253, 2257 BizSr,CaCu, Og , 5 1507 carrier-phonon coupling 1061 collective electromagnetic wave excitation BizSr,CaCuzOg, single crystais 1565 catastrophic depinning 2257 2429 BizSr,CaCu 0g, superconductor 1613 cation 85] collective modes 387, 1685, 1833, 1881 Bi2Sr,_ ,La,CuO, 561, 563 cation substitutions 53, 945 colony connection 2591 Bi2Sr, _,La,CuO¢, 5 633 cavity 2527 columnar defects 375, 391, 2073, 2101, Bi2201 system 1263 c-axis 204] 2105, 2143, 2187, 2189, 2227, 2319, biaxial 611 c-axis coupling 1495 2375, 2427 biaxially oriented YBCO film 617 c-axis direction 2439 columnar pinning 2169 bicrystal 2473, 2545 c-axis property 1023 columns 2155 bilayer coupling 1699 c-axis resistivity 1129, 1155, 2293 combinatorial synthesis 428 bilayers 1681, 1689 c-axis tunneling 2431 compact bosons 1849 bipolarons 269, 1041 c-axis V-/ characteristics 2437 competing interaction 1811 birefringence 1025 Cd-doping 939 complex polymerization method 765 bismuth-containing oxides 1099 c-direction 1285 complex resistivity 2183 Analytic Subject Index 2677 composite cooperators method 1773 critical state 2083, 2211, 2223, 2229, d-wave 128, 146, 1301, 1385, 1399, 1411, composite crystal 811 2385 1521, 1767, 1855, 1967 composites 2449, 2453 critical state model 2307, 2315, 2653 d-wave pairing 1645, 1659, 1845, 2353, composition 853 critical temperature 1189, 1199, 1333, 2405 composition coefficient of T, 789 1693 d-wave pairing symmetry 1525, 1527 compressibility 903 crossover 1817 d-wave superconductivity 1505, 1741, conductance 140 crossover picture 194 1837 conductance oscillations 2441 crossover temperature 227 d-wave superconductors 1419, 1673, conductivity 1193, 1533, 1647 cryocoolers 407 1857, 1861 conductivity tensor 2355 cryomagnetic applications 2645 d-wave symmetry 1649 content of oxygen 833 crystal field 1005, 1327, 1377 d-I-d junction 2405 controlled melt process 2601 crystal growth 77, 81, 89, 446, 459, 463, de SQUIDs 2451, 2477, 2489 Cooper instabiity 1677 473, 477, 479, 493, 537, 719, 865, 953 decomposition 2007 Cooper-pairing 979 crystal morphology 865 decoration 2085 Cooper pairs 290, 1809 crystal structure 101, 541, 565, 651, 749, decoupling 1565, 2023 cooperative pinning 2203 829, 889, 911, 947, 949, 1059 decoupling parameter 1675 coplanar 2495 crystalline axes 471] defect and deformation 2133 coplanar resonator 395 crystalline electric field 1335 defect structure 2303 coplanar waveguide 2525 crystalline structure 879 defects 97 copper germanate 953 crystallinity 653 degradation 825 copper layers 1357 crystallization 437, 863 delayline 2525 copper oxycarbonates 647 crystals 93, 491, 927, 1979 delocatization effect 1057 corbino disk 1227 Cu-1234 1973 demagnetization 2385 correlated systems 1701 densing of states 1291 (Cu,C,B)Ba,Ca,, ~ 1CUnO2n 424d 817 correlation 1437 Cu-NMR_ 1373 density functional theory 1635, 1637, correlation function 1675, 2409 Cu-O chain 1785 1639, 1791 corrosion 719 Cu-—O chain structure 791 density of Andreev states 2411 corrosion dynamics 497 Cu-O linkage 977 density of states 1759, 1835, 1839, 1913 Coulomb interactions 1723, 1727, 1923 Cu-O network 829 density response 1751 Coulomb repulsion 1811 Cu-O plane 1639 depairing limit 675 Coulomb staircase 1493, 1531 Cu-—O, plane dimpling 182 dependence of magnetic field 985 coupled bilayer cuprates 1771 CuGeO, 953 deposition rate 579 coupled grain model 1577 Cu K-edge 447 destruction 1949 coupled microstrip lines 2529 63 Cu NMR_ 1115 detector 2491 coupled spin chains 1661 CuO 1383 detwinned crystal 2035, 2037, 2039 coupling 2205 CuO, octahedra 787 detwinning 1177 coupling of Cooper pairs 1997 CuO, plane 937, 1643, 1783, 1833 device 415, 2495, 2499 coupling strength 1831 CuO planes 2151 device applications 731 covalency 1931 Cu-substituted YNiBC 1249 diagram technique 1719 crack formation 575 (Cu; _,T1,)-1234 957 diamagnetic peaks 2251 creep 2019 Cu valence 1211 diamagnetic signal 483 critical current 375, 424, 609, 649, 665, cube and rotated cube texture 567 diamagnetic transition width 841 1173, 1203, 1305, 1995, 2095, 2109, cubic phase 579 diamond film 2547 2133, 2145, 2179, 2199, 2215, 2269, cuprates 178, 269, 283, 751, 837, 1001, diaorder 1849 2275, 2277, 2283, 2291, 2297, 2301, 1127, 1129, 1147, 1185, 1251 dielectric 705 2303, 2305, 2315, 2343, 2449, 2563, 1212 cuprates 1085 dielectric permittivity 1585 2569, 2595, 2605, 2615, 2619, 2623 current density distribution 2225 dielectric resonance 1583 critical current density 495, 501, 503, current-dependence 799 dielectric resonator 1579 507, 649, 675, 869, 1043, 1607, 2103, current leads 2577, 2589, 2651 diffraction 1081 2115, 2123, 2129, 2135, 2137, 2153, current limitation 2625 diffussion 1091 2237, 2271, 2273, 2285, 2307, 2309, current relaxation 2243 dilute substitution 69 2377, 2571, 2577, 2581, 2583, 2591, cylindrical texture 609 dilute vortex system 319 2601, 2617, 2647 dimagnetic dip effect 1295 critical current distribution 2299, 2559 dimensional crossover 347, 1299, 1661, critical field 1543, 1567, 1945 DLC films 2457 1983, 2005, 2261, 2265 critical fluctuations 1545 DOS peak 1935 dimensionality 1509, 1569, 1989, 1993, critical point 260 d-pairing 1833, 1881 1997 critical scaling collapse 207] 3d-substitution 779 dip effect 2251 2678 Analytic Subject Index discrete compounds 443 electromagnetic absorption 1975 n-pairing 1787 dislocation density 2587 electromagnetic resonant absorption 2423 Ettingshausen effect 1547 disorder 323, 1137, 1385, 1745, 1847, electron and X-ray diffraction 1089 Eu,CuO, 1325 2017, 2061, 2067 electron beam irradiation 2467 (Eu, 5 iex Pr,Ceg 5)Sr2Cu,NbOj9 ae 745 disorder effects 1999, 2027 electron correlations 299, 1735 evaporation of BaF, 639 disordered materials 443 electron density distribution 977 evolution 1093 dispersion relation 1707 electron diffraction 801, 923, 1111 exact diagonalization 991, 1705, 1731, distortion effect 1649 electron interactions 1925 1733, 1793, 1827, 1829, 1875, 1911 domain wall 1523 electron irradiation 1199 excess conductivity 1571 dopant effect 1257 electron microscopy 61, 101, 743, 801, excess oxygen 673, 1097, 1319 dopants 869 895, 909 excitons 1041 doped 1329 electron-pair symmetry 1077 extended Hubbard model 1875 doped Hubbard model 1743 electron photoemission 1423 extended t—/J model 124, 1685 doped spin ladder 1109 electron spin resonance 1159, 1341 extended van-Hove singularity 218 doped YBCO 667, 1017, 1021, 2475 electron superconductors 1513 doping 162, 507, 633, 783, 927, 1093, electron tunneling 1493, 1531, 1895 F doping 763, 769, 891 1101, 1361, 1513 electron wave 339 f-electrons 1717 doping effect 1289, 1499, 1665 electron—lattice interaction 1769 FLL melting 2055 doping hole concentration 873 electron-phonon coupling 1037, 1719, I/f noise 1431, 1439, 2399 doping induced in-gap states 105 1723, 1825 FT-IR 1049 double Hg layer 895 electron-phonon interaction 190, 1109, fabrication 2553 double ring resonator 2543 1253, 1473, 1489, 1501, 1517 far infrared spectroscopy 1023 double sided film 1461 electron—phonon spectral function 1519 fault current limiter 2639, 2641, 2643 dry-type jet mill 523 electronic correlation 1103 Fe doping 753, 1097 d+s superconductivity 1841 electronic density of states 1895 Fe-doping effect 975 Dy-doped 2305 electronic excitations 222, 286 Fermi level 1015 dynamic 1449 electronic Raman scattering 1009, 1013, Fermi liquid 273, 1797 dynamic behavior 423 1017 Fermi surface 218, 999, 1621, 1637, dynamic losses 2157, 2329 electronic resonant circuit 2627 1669, 1759 dynamic magnetization process 1863 electronic spectrum 1101 Fermi surface nesting 1697 dynamic study 859 electronic states 206, 1083, 1099, 1497, fermion pairs 1797 dynamical scattering 829 1623, 1773, 1931 fermion-spin theory 1687 electronic structure 869, 961, 963, 993, ferroelectric 713 E-J characteristics 2255, 2341 995, 1007, 1283, 1625, 1627, 1631, ferroelectric/superconductive thin films EBCO crystal 2119 1783, 1905 705 EPR 1929 electronic theory 1681, 1775 ferromagnetic phase transition 1727 ESR 1889 electronics high 7, material 1503 ferromagnetic scattering 1527 ET,Fe(CN)SNO- 1893 electrophoresis 2563 ferromagnetic spin fluctuation 214 EXAFS 182, 725, 913, 1081 electroresistance 1163 ferromagnetism 693, 1853 Ea—Eag chain 1117 element doping 2177 field-cooled magnetization 2233 eddy current 407 elemental substitution effect 757 field dependence 1597 eddy current loss 2603 eletromagnetic anisotropy 2055 field effect 2495 edge barrier 2343 elevated oxygen pressure 54] field-effect transistor 2475, 2497, 2499 effective charge 1931 Eliashberg equations 1501, 1701, 1923 field-induced pinning 2137 effective Hamiltonian 1733 Eliashberg function 1473 field-sweep rate 2255, 2393 effective mass 1459, 1891 Eliashberg theory 1825 field-sweep-rate dependence 2263 effective misalignment angle 1995 energy dispersion 999 filament 891 effective pinning potential 2171, 2173 energy gap 222, 1077, 1643, 1757, 2463 film growth 557, 559, 599 elasticity 2085 energy loss 1445 film orientation 579 electric field gradient 1363, 1619 energy spectrum 1715 film stack 2631 electric resistivity 1181, 1265, 1443 enhanced cooling 2637 films 252, 583, 2215, 2335, 2337, 2361, electrical conductivity 735 epitaxial films 551, 619, 1291, 2217 2377 electrical power applications 2641, 2643 epitaxial growth 625, 643, 2413, 2465 filter 2521 electrical properties 795, 871, 2415, 2501, epitaxial multilayers 111 finite-element method 1967 2597 epitaxial thin films 2131 first-order supercurrent 2435 electrochemical oxidation 1877 equilibrium magnetization 2101 first-order transition 2045, 2057 electrochemical synthesis 721, 1311 Er!-EPR 1349 first principles 1635, 1637 electrodeposition 2575 Er-doping 1349 fishtail 1971 Analytic Subject Index fishtail effects 2119, 2125, 2145, 2161, fracture toughness 2599 growth mode 561 2177, 2185, 2207, 2209 fragment symmetry carrier reservoir 1693 growth rate 49] Fiske resonance 2459 free energy 1699 growth simulation 631 fission 375 frequency dependence 2157 gyro system 2649 flat band 1773 frustrated Kondo lattice 1885 flat surface 597 frustration 1117 2H-NbSe, 2027 floating zone method 865, 1409 fullerene superconductor 1923 H-T phase diagram 2013 fluctuation conductivity 1509, 1569 fullerenes 307, 735, 737, 739, 1915, HBCCO 913, 1013 fluctuation effects 1209, 1539, 1541, 2163 1917, 1919, 1925, 1927 HFSC_ 1881 fluctuation phenomena_ 1543 functional Schrédinger picture 1707 HRTEM _ 571, 813, 2567 fluctuations 248, 1221, 1299, 1399, 1533, fundamental excitations 1595 HTSC 967, 1611, 1881 1547, 1571, 2119 fundamental science 3 HTSC ceramics 1145 fluctuations magnetoresistivity 1535 HTSC+CuO 2453 fluctuations resistivity 1549 GBCO_ 1993 HTSC+ metal composite 2447 fluorinated 123 61] g-on fractional exclusion statistics 1683 HTS coil 2629 fluorite-type block 673 (Ga,C)-1223 509 HTSC + semiconductor 2449 flux 2019 ‘-irradiation 989, 2273 HTS cylinder 2635 flux creep 331, 351, 2087, 2141, 2189, y-term 1897 HTS inductor 2627 2203, 2207, 2229, 2235, 2263, 2297, gap 140, 1029, 1843 HTS interconnects 683 2317, 2333, 2389, 2397 gap anisotropy 294, 1895 HV TEM 875 flux-creep velocity 2367 gap states 1709 hairpin resonator 2487 flux diffusion 2593 gap symmetry 1337, 1505 Hall coefficient 791, 1143, 1617 flux dynamics 351, 1175, 1953, 2079, gapless 1367 Hall conductivity 1209 2345, 2379, 2381 gapless S.C. 1373 Hall effect 240, 1149, 1179, 1183, 1185, flux flow 2141, 2335 gauge field 1763 1195, 1197, 1201, 1203, 1205, 1213, flux-grown crystal 481 gauge field fluctuation 1683, 1699 1215, 1227, 2321 flux imaging 2231 Gd?*+-EPR 793, 1379 Hall mobility 1193 flux jumps 2359 Gd-—Gd exchange 1379 Hall probe 2247, 2289 flux lattice 1949, 1963 GdBaCuO 625 Hall properties 1191 flux-lattice melting 2051 GdBa,Cu,Og 1403 Hall resistivity 1207 flux-line cutting 1953 generic relationships 749 Hall voltage 2373 flux-line lattice 2089 geometrical effect 2343 Hao—Clem model 2003 flux-line-lattice dynamics 1401 Ginzburg—Landau equation 1663, 1679, harmonic 2389 flux-line localization 2095, 2179 1841, 1945 harmonic mixing 399 flux-line orientation 196] glass behavior 1999 heat capacity 715, 1409, 1421 flux lines 2341 glass phase 1963 heat-capacity jump 1655 flux method 469 glass transition 327, 2437 heat treatment 2295, 2575 flux noise 2369 glassy exponent 2393 heating program 2605 flux penetration 1469, 2219 gold cuprate 951 heating rates 2555 flux phases 379 Gor’kov equation 1653 heavy-fermion theory 1885 flux pinning 339, 371, 557, 1447, 1567, gradiometer 2481 heavy fermions 303, 1883 1615, 1961, 1997, 2097, 2099, 2107, grain aligned sample 2253 heavy ion 2135 2109, 2111, 2123, 2127, 2129, 2133, grain alignment 487, 2619 Heisenberg antiferromagnet 1671 2137, 2143, 2147, 2153, 2161, 2163, grain boundaries 132, 1374, 1495, 2069, Heisenberg model 811, 1781 2177, 2191, 2207, 2249, 2265, 2269, 2349, 2457, 2473, 2475, 2567, 2571, helium boiling 2637 2275, 2279, 2283, 2291, 2295, 2297, 2587 heterodyne mixer 249] 2303, 2311, 2327, 2357, 2601 grain-boundary junction 2409 heterostructures 699, 709, 711 flux-pinning center 547 grain conductivity 2283 Hg-1201 61, 97, 1081 flux quantization 4, 2485 grain coupling 2579 Hg-1212 1431, 2051 flux quantum 2493 grain size 843, 1455 Hg-1222 921 flux structures 2343 granular superconductors 1555 Hg-1223 1241, 1431, 2003 flux transformer 1147, 2023 granular YBazCu30, 1591 Hg-1234 907, 1987, 2173 flux-transformer configuration 1281 granularity 1469, 2199, 2205, 2315 Hg-2212 899 flux trapping 2201 great magnetic resistant 1627 (Hg,Cr)Sr,CuO4,5 1049 flux visualization 1469 Green’s function 1675, 1845, 2517 (Hg,Pb)BazCazCu3 0g ,, 967 Fokker—Planck equation 2355 growth 55] (Hg,T1)-2212 911 formation kinetics 511 growth kinetics 461 (Hg,Tl)—-Ba-(Ca,Y)—Cu-—O system 889 fourth harmonics of Nd:YAG laser 577 growth mechanism 549 (Hg,Tl)-22(n—1)n 46, 887 2680 Analytic Subject Index (Hg, V)BazCuO,, 5 1049 homogeneous 437 interlayer coupling 1698, 2221 (Hg,V)(La,Sr)2CuO, , 5 1049 homologous series 46 interlayer spacing 1987 Hg-1223 cuprate 925 honeycomb 1117 interlayer transport 1169, 1901 Hg-1223 film 643 hopping 2341] internal friction 1053, 1523, 1575 Hg-1223 phase 891 hopping conductivity 1223 interplanar coupling 797, 905 Hg-1223 superconductor 923 Hubbard Hamiltonian 1819 interstitial oxygen 1453, 1457, 1575 Hg-1223 tape 2553 Hubbard model 1387, 1697, 1705, 1711, intrinsic Josephson effect 387, 1565, Hg—Ba—Ca—Cu-O oxide 897 1715, 1719, 1745, 1755, 1757, 1779, 2293, 2439 HgBa>Ca,, _ ;Cu,Og,4 857 1787, 1795, 1799, 1867, 1907 intrinsic Josephson junction 2431 hydrogen loading 2329 intrinsic model 2499 HgBazCa, _ Cu, Orn 4245 77 HgBa,CuO, 909 hydrogenation 1611 intrinsic pinning 1603, 1969, 2217, 2323 Hg-based compounds 1459, 2161 hyperfine field 1363 iodine intercalation 1981, 2025 Hg-based cuprates 53, 881, 885, 893, 905, hysteresis 1583, 2023, 2031, 2469 iodometric titration 1435 919, 927, 2243, 2245 hysteresis loop 1979, 2245 ion beam 641 Hg-based films 645 ion beam assisted deposition 613 Hg-based superconductors 881, 903, I-V characteristics 383, 1131, 1529, 1989, ion bombardment 1191 1007, 1167, 1819 2011, 2019, 2081, 2165, 2167, 2169, ion implantation 589, 1043 Hg-ceramics 1381 2267, 2363, 2407, 2411, 2439, 2459 ion irradiation 2095, 2105, 2179 Hgo.7Cro.3S1r2 CuO, , 5 2001 I-V curves 2299 ion milling 657, 2471 IBAD 611, 617 ionic size effect 761 Hg; _,Pb,BazCa, _;Cu,O2n+4245 901 (Hgo.5Pbo.5)St2(Ca;_~Y,)Cu,07 961 IBAD YSZ layers 685 irradiation 2135, 2143 HgTIBaCaCuO 1153 IF detector 2545 irreversibility 2099, 2131, 2211, 2223 HgTIBaCaCuO films 1213 IPES 993 irreversibility line 375, 1381, 1951, 1983, high frequency 252 ice rule 847 2051, 2095, 2111, 2117, 2135, 2159, high frequency cut-off 2483 impedance match 2487 2167, 2179, 2181, 2201, 2281, 2285, high oxygen pressure 457 impurities 283, 459, 669, 1205, 1551, 2345, 2381 high oxygen pressure synthesis 809 1709, 1749, 2447 Ising model 453 high parallel field 1565 impurity effects 149, 1351, 1367, 1851, isothermal annealing 1091 high power 2541 1861 isothermal partial melting method 2579 high pressure 46, 49, 53, 57, 66, 77, 153, impurity scattering 236, 1837 isotope effect 198, 202, 1753, 1813, 1917 811, 817, 911, 957, 1189, 1443 in-plane alignment 607 high-pressure effects 1167, 1819 in-plane anisotropy 136, 1971 Jahn-Teller effect 190, 1623, 1807, 1813, high-pressure synthesis 509, 513, 789, in-plane conduction 1535 1927 827, 887, 897, 949, 1325 in-plane defects 1199 joint doping 755 high pulsed current 2625 inelastic neutron scattering 166, 1055 Josephson coupling loops 1295 high-resolution electron micrograph 897 inelastic relaxation 1429, 1453, 1457 Josephson effect 1855, 2451 high T, 1497 infinite layer 483, 627, 697, 971, 1011 Josephson junction 399, 419, 423, 731, high-7, junctions 1491 infinite-layer compounds 105, 1335 1589, 2401, 2403, 2407, 2409, 2417, high-7,, superconductivity 1065, 1805 infinite-layer cuprates 1035 2433, 2443, 2455, 2459, 2461, 2467, high-7,, superconductors 773, 963, 1581 infinite-layer structure 565, 651 2469, 2471, 2473, 2475, 2477, 2479, high temperature 555 infrared 1019, 1031, 1141 2485, 2489, 2491, 2493, 2503, 2533, high-temperature superconductors 1067 infrared rays 635 2545 high voltage 2625 infrared reflectance 1011 Josephson junction network 2437 high voltage generation 2627 infrared reflectivity 2425 Josephson plasma 383, 391, 1599, 2421, higher harmonics 2157, 2329 infrared spectra 1041 2425, 2427 HoNi,B,C 1409 inhomogeneities 93 Josephson plasma resonance 1125, 2073, hole concentration 767, 785, 797, 859, insertion loss 2525 2221, 2375, 2429 903, 905, 1361, 1559 insulator—conductor transition 1101 Josephson plasmon 1023 hole density 1211 integrated films 713 Josephson vortex 1565, 2323 hole doped cuprate 4 interatomic charge distribution 977 Josephson vortex lattice 387, 2041 hole doping 945 intercalation 1265 junction 2413, 2415, 2419, 2453, 2509, hole-pairing 1745 interface 419, 693, 2587 2519 hole pairs 1929 interferometer 128 junction array 2545 hole superconductivity 1513 intergrain resistivity 2315 junction fabrication 2445 Holstein t—J model 1829 intergranular pinning 217] homoepitaxial films 587 intergranular stacks 1991 (K,Ba)BiO; 2207 homoepitaxy 597 intergrowth 877, 897, 2621 K-T transition 1175, 1555 homogeneity 89, 649, 2377 intergrowth structure 907 60K plateau 793, 1349 Analytic Subject Index 2Kf and 4Kf phonons 1109 lattice effect 1057 LuNizB,C 355 kinetic inductance 2529 lattice expansion 769 Luttinger liquid 1747 Knight shift 1373, 1795 lattice instability 1061, 1065, 1261 Kondo effect 1395, 1885 lattice misdirection 593 MBE 162 Kondo magnetic impurity 1525 lattice-parameter change 465 MC simulation 2057 Kosterlitz—Thouless transition 2041, 2077, lattice parameters 747, 935, 941 MOCVD _ 585, 587, 595, 617, 2495 2079, 2081 lattice softening 1087 MSR_ 69 layer-by-layer growth 603 MTG 485 LBCO 753, 755, 2257 layered cuprates 41, 959 MTG ring 2649 LNCO 781 layered 2D system 1721 Madelung energy 991 LSCO_ 86, 140, 231, 244, 1151, 1373, layered materials 1587, 1753 magnetic 1893 1411, 2257, 2425 layered perovskite 37, 729 magnetic Bi-2212 1329 LTT phase 1079 layered structure 945, 1539 magnetic coherence 231 La-214 2143, 2359 layered superconductors 311, 319, 1653, magnetic field 252, 343, 2619 (La,Sr)7CuO, 537 1859, 1957 magnetic field distribution 2629 (La; _,Sr,)2CuOy _ 5 2239 lead cuprate 543 magnetic force 2113, 2653 La—Ca-Mn-O_ 1231 levitation 461, 2649, 2653 magnetic hysteresis loop 2309, 2393 La; gBa;2Cu,0,; 743 levitation force 485, 263] magnetic impurity 1489 Laz_ ,Ba,CuO,_, 1593 Li intercalation 145] magnetic levitation 501, 1455 LaCaBaCuO 1069 lift-off 2461 magnetic measurements 1311 La; 5Ca,Ba;5_,Cu30, 767 linear response 1845 magnetic moment 1605 La,CuO, 446, 535 liquid-MO source 585 magnetic ordering 1289 La,CuO4,5 1429, 1453, 1457, 1575, liquid source 595 magnetic orientation 525 1877, 1879 Ln,_,R,CuO, 491 magnetic oxides 1383 La,CuO,,, 170 LNi, B,C (L=Lu and Y) 1475 magnetic pair breaking 1933 La deficiency 535 local charge equilibrium 1693 magnetic phase diagram 2043 La,_,K,CuO, 80] local electrodynamics 1281 magnetic phase transitions 194] LaNdBaCuO = 1255 local electronic structure 969, 1639 magnetic properties 777, 783, 1651, 1779, Lap 5St95CoO; 619 local fields 158] 1955, 2181, 2213, 2379, 2653 LaSrCuO_ 1079 local gap 1643 magnetic pulsed compaction 2569 La,Sr;_,CuO,_5 565 local heat treatment 635 magnetic relaxation 2195, 2215, 2239, La; g5Sto.}5CuO, 1465 local Jahn-Teller distortions 202 2249, 2251, 2253, 2259, 2263, 2267 La)_,Sr,CuO, 533 local magnetic relaxation 2209, 2225, magnetic resonance peak 232 La system 1367 2247 magnetic response 2211 ladder compound 149, 153, 157, 162, local moment model 1511 magnetic scattering 1163 929, 1121 local moments 1709, 1749 magnetic structure 1315 ladder system 1119 local pairing 1735, 1807, 1813 magnetic superconductors 69, 1907 ladders 1113, 1117, 1343 local pairs 1815 magnetic susceptibility 811, 877, 899, Aap 1301 local structure 725 909, 1319, 1323, 2369, 2621 A/2 transmission 2487 localized magnetic moments 1359 magnetic transition 1319 lanthanide 849 lock-in 215i, 2155 magnetism 307, 451, 745, 779, 1633, large area films 107 lock-in transition 1957 1939, 2107 large area thin films 2543 logarithmic form 1797 magnetization 457, 1073, 1225, 1313, large bulk sample 2645 logic circuit 2493 1539, 1877, 1951, 2091, 2117, 2139, large dimensions 1743 longitudinal and transverse plasma modes 2151, 2155, 2199, 2223, 2255, 2359 large Fermi surface 1773 1599 magnetization anomaly 1981 laser ablation 577, 601, 645, 663, 1035 longitudinal optical phonon 1657 magnetization behavior 1295 laser beam profile 663 Lorentz microscopy 339 magnetization current density 2281 laser deposition 573, 599, 679 losses 2623 magnetization relaxation 2197 laser induced 1275 lossless resistor 2641 magneto-optical 1469 laser-induced voltage 1247 low-field limit 1201 magneto-optical image 2087 laser molecular beam epitaxy 697, 699 low-T specific heat 1403 magneto-optical visualization 2279 laser-zone melting 2589 low temperature 1051 magneto-optics 2219, 2291, 2311 latent heat 327 low temperature neutron diffraction 1085 magnetocardiogram 2481 lateral distribution of critical current 2289 low-temperature structural phase transition magnetometer 2477 lattice constant 937 microstructure 1071 magnetoresistance 1219, 1223, 1227, lattice deformation 2103 lower critical field H,; 1301, 1309, 2205 1231, 1537, 1647, 1901, 2017, 2031, lattice dynamics 1037, 1457 LuBa,Cu307 963 2317, 2337 2682 Analytic Subject Index magnetoresistivity 1183, 1221, 2365 micrograph 681 multichip modules 683, 685 magnetostriction 1427 microscopic phase separation 194 multifilament wire 2339, 2629 magnetotelluric sounding 411 microscopic theory 1471 multilayers 613, 681, 683, 685, 693, 731, magnetotransport 1547, 2049 microscopy 837 849, 1143, 1627 magnetron sputtering 549, 2413 microstrip 639, 2511, 2525 multilayers and superlattice 741 Maki-Thompson model 1537 microstrip antenna array 2517 muon localization 1383 manganocuprate 945 microstrip resonator 2539 muon-spin relaxation 307 many-body effects 1631 microstructure 115, 551, 801, 853, 1095, muon-spin resonance 1353, 2069 many-body theory i74 2295, 2455, 2473, 2553, 2579, 2583, marginal Fermi liquid 264 2587, 2597, 2599, 2617 NBCO 81, 581, 607, 2099, 2193 materials equation 2325 microwave 1467, 1573, 1583, 1585, 1601, NBCO/PBCO/NBCO multilayers 1483 materials evaluation 428 2519, 2537, 2543 NCCO 965, 1477, 1485, 2261 maximum entropy method 971 microwave absorption 69, 1589, 1599, NCCO crystals 2209, 2225 McCumber parameter 2469 2159, 2421 NL-mode 1259 measurements 1147 microwave applications 395 NMR _ 119, 226, 227, 236, 299, 1107, mechanical measurement 2391 microwave bandpass filter 2523 1331, 1337, 1339, 1343, 1345, 1347, mechanical properties 2573 microwave circuits 254] 1361, 1363, 1365, 1381, 1385, 1389, mechanism 174, 467, 1629, 1729, 1775 microwave conductivity 1125 1393, 1671, 1771, 1889, 2063, 2065, mechanism of high-7,, superconductivity microwave devices 2521 2121 1737, 1739 microwave electrodynamics 1581] NMR/NQR_ 119 Meissner effect 915 microwave exitation 2423 NQR_ 1345, 1351, 1363, 1367, 1369 Meissner holes 2231 microwave losses 395, 1577 NS junction 1691 melt-growth 499, 501 microwave measurement 256 n-type 1379 melt-magnetization 2237 microwave performance 2515 n-type superconductor 763 melt-powder 499 microwave properties 1597 nanocrystalline Cu 1615 melt process 371, 2237 microwave sub-systems 2527 nanostructure 523, 861, 863 melt-processed NdBa,Cu3;0, 531 microwave surface impedance 1579 nanotubes 1925 melt-processed YBCO 2211 mid-gap states 1521 Nb 2335 melt-texture growth 487, 507 Migdal’s theorem 1473 Nb-doped SrTiO; 2501 melt-texture process 2613 miniaturise 2511 Nb film 2533 melt-textured 529, 547, 2295, 2589 mirage technique 659 NbN junctions 2549 melt-textured growth 2599 mismatch factor 831 NbSe, 2085 melt-textured materials 431 mixed state 1149, 1213, 1399, 1545, Nd-123 2143, 2295 melt-textured YBCO 2123, 2127 2015, 2375 NdBaCuO 469, 677, 917 melting 1963, 2021, 2041, 2045, 2191 Mo-substitution 827 NdBajCu30, 771 melting line 2049, 2395 model calculation 1289 Nd, ,,Ba,_,Cu;0, 431 Nd4Ba,Cu,Oj9 particle size 531 melting of vortex lattice 1425, 1953 model simulation 631 melting transition 2017, 2183 modulated microwave absorption 1591 NdCeCuO film 1163 mercury-based superconductors 1039 modulated structure 901, 1753 Nd; g5Ceg ;5;CuO, 1465 mercury cuprates 66 modulations 801, 847 Nd,_,Ce,CuO, 1513 mercury-free precursor 645 moiré fringe 925 Nd, Bs Ce CuO, 1005 mesoscopic 2417 molecular beam epitaxy (MBE) 631, 673, NdLaCeCuO 747 mesoscopic device 2399 929 necking 476 mesoscopic superconductivity 2441 MOller—Plesset theory 1639 negative differential region 1529 mesoscopic superconductor 1651 molten salt precipitation method 723 negative magnetoresistance 691 metal doping 915 moment method 2517 Nernst effect 1279, 2009 metal—insulator transition 1105, 1107, momentum distribution 1731 neutron and X-ray diffraction 833 1111, 1161 monoclinic 1093 neutron diffraction 61, 97, 781, 911, metallic loop 1691 Monte Carlo 1865 1353, 2089 metallic tape 615, 703 morphology 529, 563 neutron irradiation 1333, 1607, 2285 metastability 2027 morphology evolution 575 neutron scattering 86, 178, 231, 232, metastable states 1157 MOssbauer spectroscopy 975, 1001, 1087, 1045, 1327, 1335, 1375, 1685 Mg-doped LSCO_ 787 194] new materials 57, 543, 647, 741, 951, MgO 629 Mott insulator 729 1937 MgO particles 2097 Mott transition 299, 1103, 1907 new superconducting cuprate 509 micro-Raman scattering 1043 moving dissipation 2269 next nearest neighbor transfer energy microbridge 2321 multi-critical point 2037, 2039 1767 microcurrent path 1171 multi-shielding technique 2635 Ni 615, 1389 Analytic Subject Index nickel-substituted cuprates 1271 optical dilatometer 1441 PBCO 49, 479, 481, 681, 809 nitrogen annealing 533 optical phonons breathing mode 979 PBSCO 777 noise 2335, 2415 optical properties 1475 PGO barrier 2463 noise power spectrum 1433 optical transitions 1723 PIT method 2607 noise temperature 2401 optimization 1559, 2585 PLD (pulsed laser deposition) 549, 559, non-copper oxides 1937 optimum doping 885 627, 1231 non-copper-oxides superconductor 741 orbital occupancy 803 PMP sample 1607 non-cuprate superconductor 218 order/disorder 813 P4W140sq 955 non-destructive method 2559 order parameter 132, 2403 p-d model 1695 non-equilibrium electrons 1015 order parameter symmetry 1655 pair breaking 985, 1551 non-equilibrium superconductivity 2411 order—disorder phase transitions 847 pair-breaking parameter 1679 non-Fermi liquid 260, 1711, 1799 ordered localized holes 1067 pair symmetry 1477, 1897, 2403 non-Fermi liquid theory 1801 ordering 807 pair transfer 1909 non-linear 1601 ordering kinetics 1089 pair tunneling 4 non-linear conductivity 2077 organic analogues 519 pair tunneling mechanism 1851] non-linear electrodynamics 252 organic conductors 1899, 1901, 1909 pairing 174, 1497 non-linear resistivity 1303 organic metals 1899 pairing instability 264 non-linear response 2407 organic superconductors 299, 1859, 1887, pairing interaction 123 non-linear vortex response 1947 1889, 1891, 1895, 1897, 1903, 2013, pairing mechanism 157, 2089 non-logarithmic regime 2197 2063 pairing-state symmetry 136, 1485 non-phonon superconductivity 1667 orientational order 307 pairing symmetry 4, 132, 146, 1413, nondestructive evaluation 407 oriented growth 655 1515, 1853 nonlinearity 2389 orthorhombic 1617 palladium 449 normal state 231, 240, 248, 273, 279, oscillator 2531 pancake 2007 303, 1057, 1195, 1219, 1235, 1241, out-of-plane conduction 1535 paraconductivity 1569 1267, 1273, 1437, 1641, 1681, 1763, out-of-plane conductivity 1229 paraelectric mechanism 1645 1789, 1801 out-of-plane resistivity 1219 paramagnetic current 237] normal state energy gap 123 out-of-plane transport 1565, 2167 paramagnetic Meissner effect (PME) normal state magnetism 226 outgrowths 553 1295, 1297, 1511, 2201, 2369 normal state properties 1887 overdoped regime 1357, 1359 paramagnetism 843 novel crucible 89 oxidation states 967 partial-melt process 2287, 2611 Noziere—Vinen model 2371 oxides 1391, 1807 partial melting 515, 853, 891 nuclear magnetic resonance 359, 1103, oxidized system 755 particle size 893 1105 oxidized treatment 765 particle-hole excitations 1721, nuclear spin lattice 1343 oxy-chloride superconductor 933 1725 nuclear spin-lattice relaxation time 1105 oxycarbonate 41, 817, 817 partition coefficient 953 nucleation rate 623 oxyfluoride 449 passive devices 2535 number of CuO, layers 905 oxygen 1609 pattern formation 1095 number parity effect 1651 oxygen content 437, 517, 831, 1135, patterned layers 685 numerical analysis 2157 1193, 1435, 1445 patterned substrates 623 numerical calculation 1803 oxygen deficiency 671, 1959, 2147, 2239 Pb-1212 821 numerical methods 1705 oxygen-deficient perovskite LaSrCuO Pb-3212 939 numerical simulation 519, 1863, 2353, 1123 (Pb,Cu)1212 815 2507, 2631 oxygen-deficient YBCO 1613 (Pb,Cu,Cd)3Sr,(Nd,Ce),Cu,0, 871 oxygen diffusion 527 (Pb,Bi)-2223/Ag tapes 2557 oxygen doping 1321 Pb and La-doped 1261 O and F content 513 oxygen interaction 37 Pb/BSCCO tunneling junction 2435 OCMG 503 oxygen nonstoichiometry 441 Pb-doped Bi-2223 1091 O displacement 1025 oxygen ordering 1089 Pb-doped Hg-1223 2175 179 NMR_ 1357, 1359 oxygen partial pressure 535, 771 Pb doping 901, 907 oblique field 1965 oxygen pressure 591, 82] Pb-12(n—1)n 46 on-site Coulomb correction 1625 oxygen redistribution 657 peak effect 371, 503, 1181, 1947, 1965, one-dimensional 1323 oxygen reduced 477 2029, 2043, 2137, 2155, 2191 one-dimensional conduction 1133 oxygen stoichiometry 527, 781, 1073, Peierls dp model 1769 one-hole spectral function 1785 1181 Peierls phase transition 1061 optial response 186 oxygen treatment 77] Peierls transition 955 optical conductivity 991, 1121, 1141, oxygen vacancy 747, 935 pellet pressure dependence 2383 1179, 1651, 1743, 2425 oxyhaloids 1067 Peltier effect 1247 2684 Analytic Subject Index penetration depth 146, 395, 1459, 1461, physical properties 713 pressure-dependent T, 198, 1553 1463, 1465, 1467, 1663, 2025 pinning 323, 363, 1305, 1427, 1951, pressure effect 791, 885, 903, 2029 penetration of magnetic fields 3 2007, 2067, 2083, 2141, 2165, 2313, Pr4f—O2p hybridization 757, 973 percolation 2299 2361 Pr4f hybridization 1133 periodic superlattice 37 pinning ability 259] 1/8 problem 1083, 1217, 1255 peritectic growth 519 pinning array 379 processing 2597 peritectic recombination 525 pinning center 1139, 2173, 2301, 2373 processing condition 529 peritectic transition 767 pinning force 2193 processing parameter 2651 permanent magnets 2633 pinning potential 1993, 2203, 2249 properties 1075, 1329 permittivity 111 planar defects 2241 protective layers 589 perovskite 727, 731, 751, 837, 849 planar junctions 711 proximity effect 1761, 2445 perovskite oxide 687 planar pinning centers 2355 pseudobinary phase diagram 2613 perovskite structure 1111 plasma evaporation 58] pseudogap 124, 226, 236, 260, 987, 1053, persistent current 1691 plasma frequency 1595 1169, 1377, 1405, 1507, 1561, 1809, perturbation 1875 plasma plume collision 601 1815, 1839 perturbative approach 1721, 1725 plasma spray 489 Pt 615 phase 197] plasma treatment 1613 Pt addition 499 1212 phase 805, 943 plasmons 183] Pt or CeO, addition 531 1222 phase 805, 943 plastic creep 347, 2209 pulling method 463 123 phase 795, 917 plastic flow 331 pulse tube cryocooler 2527 124 phase 795 plastic motion 2075 pulsed field magnetization 1863 phase anisotropy 128 point contacts 148] pulsed laser deposition 575, 619, 643, phase coherence transition 1555 point disorder 1969 647, 667, 677, 701, 1563 1212 phase cuprate 775 polarizing light 471 phase diagram 319, 335, 439, 446, 727, polaron formation 1827, 1829 quality factor 2399, 2535 1101, 1667, 1677, 1775, 1819, 2015, polaron hopping 1429, 1453 quantum antiferromagnets 166] 2039, 2387 polaronic charge carriers 202 quantum creep 2265 phase distribution 2557 polarons 186, 190, 1823 quantum critical point 1113 phase fluctuation 290 polarons pairs 1429 quantum fluctuation 331 phase noise 2531 polymerisation 307 quantum flux 1589 phase order 174 positron annihilation 1087, 1611, 2093 quantum hydrodynamics 1821 phase sensitive tests 4 positron annihilation technique 975 quantum localization 1727 phase separation 170, 236, 661, 1223, positron lifetime 969, 1283 quantum logic 403 1321, 1353, 1871, 1875, 1877, 1879 powder diffraction 449, 751 quantum mixing 2549 phase separation unrestricted Hartree-Fock powder microstructure 855 quantum Monte Carlo 1795, 1875 1873 powders 855 quantum transport 1527 phase shifter 2519 power 2513 quantum tunneling 1927, 2267 phase slippage 2453 power amplification 249] quantum well 2509 phase stability 441, 515, 717, 815 power dependence 1577 quasi-optical coupling 2549 phase transition 733, 923, 1059, 1157, power handling capability 2539 quasi-particle coherence 244 1313, 1415, 1417, 1523, 1541, 1655, Pr-1248 1407 quasihomostructures 1483 2351, 2391 PrBaCuO = =1137, 1177 quasiparticle bands 1689 phenomenology of type II superconductors PrBa,Cu;07 963 quasiparticle dynamics 186 19 Pr, _ ,Ce,BazCu;07 - 783 quasiparticle tunneling 1473, 1501, 2405 phonon and electron states 1915 PrCeCuO 2265 phonon anomaly 1055, 1063 Pr>CuO, 541 (R,Pr)2BagCuzOj4,4 789 phonon-like harmonic fluctuations 2185 Pr doping 789, 2309 RBCO 371, 599, 797, 803, 2103 phonon mechanism 1825 Prion 1293 RBaCuNbO = 1363 phonon spectroscopy 1937 Pr ordering 807 (RE,Y)-123 phase 2093 phonon vibration mode 1033 Pro 7St93MnO3 693 RE-123 superconductors 81 phonons’ 1007, 1029, 1277, 1635, 1751, praseodymium-based cuprates 805 RE-Ba-—Cu-O 447 1831, 1913, 1919 precursor 2609 RE, = Pr, CuO, +6 541 photoconductivity 671 precursor powder 2595 RF Flash Plasma evaporation 581 photoemission 123, 965, 1867 preformed pairing 1017 RHEED 563, 597 photoemission spectrum 973, 1935 preformed pairs 1215 RHEED analysis 679 photoirradiation 1283 preparation parameter 2579 RLCSJ model 2533 photon-assisted tunneling steps 2549 pressure 817, 857, 1245, 2569 RSJ behavior 2475 photoresponse 671 pressure dependence 1151, 1619 RSrCuCaO_= 1363

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