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Journal of Magnetism and Magnetic Materials 2002: Vol 242-245 Index PDF

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FA \ournal of magnetism Seatte FA materials ELSEVIER Journal of Magnetism and Magnetic Materials 242~245 (2002) 1477-1482 www.elsevier.com/locate/jmmm Subject index to volumes 242-245 304L steel 1391 Annealing 169, 261, 384, 1112 Computational micromagnetism 996 3D impurities Antiferromagnetic phase 895 omputer simulation 1018 semiconductors 96 Antiferromagnetism 738, 803, 806, 864 ‘onductivity 461 3d metals 817 Antiferromagnets 704, 928, 1287,.1418 onformal matter 772 frustrated 515 onvergent beam electron diffraction Acoustoelectric effect 707 Antiphase boundaries 1221 1325 Actinide compounds 1384 tomic force microscopy 338 00/Co 958 Activation volume 1395 Attempt frequency 1002 ooling 285 Actuator 1160 Auger electron spectroscopy 311 ore loss 205 AFM 1261 Averaging procedure 1218 ore materials 28 Alloys 943, 1399, 1446 orrelated electron systems 689, 751 Alumina 943 Ba-ferrite 304 orrelations 1202 Amorphous 467 Band calculation 809, 826 ‘oupled planes 550 Amorphous glass-covered wires 254 Band structure calculations 27 itical length 1439 Amorphous systems 108. 294, 621 Band structure ross measurement 970 Amorphous systems energy 47 ross-spin relaxation 1106 soft magnet 169 Band structures 836 RRAARRAroD AsAsD oAvDeArR AD1Y37L5Y RI alloys 1310 Barkhausen effect 2332 9 ~ rystal field soft magnetic 166, 241, 251 Barkhausen noise 1085 RE compounds 829 wires 244, 251, 254, 1435 Bethe—Peierls 550 Crystal growth 108, 949 Amorphous wires 224, 265 Bi-stability 1119 rystal structure 35 Amorphous, nanocrystalline and poly- Bilayer 1073 901, 1381 crystalline wires 143] Bitter patterns 1182 rystallization 27 Anisotropic magnetoresistance 1166 Bloch walls 888 rysté allizei tion 1257 Boride phase 1372 s ribbons 1297 Anisotropy 187 420. 535. 888. 1372 Brillouin scattering 535, 591 aauiaa systems 108, 904 Anisotropy constants 134] Anisotropy energy 747 EF 858 Anisotropy fields 331, 1270 harge-ordering 645, 683 Anisotropy hemical coprecitation 1464 CV D pt rocess amorphous 166 hoke coil 279 creep induced 279 luster glass 1077 DC noise 366 ferrites 1408 Clusters 366, 754 Defect effect 662, 92 growth induced 378 o-based alloys 10 Defects 441, 489 growth-induced 1369 obalt ferrite 194 Del v line 269 hysteresis curve 1067 oercive force iiaiioniion 359 induced 241, 276, 294, oercivity 59, | : Density functional calculations 27, 441 magnetic 66, 370, 391 1, 1057 1077, 1270, 1287, 1300, Depth profile 958 magnetization processes 1064 1347. 1369. 1395. 1399. Devices 505. 11 453 magnetocrystalline 132, 402, 686, 82 oercivity Devices magnetoelastic 254 ngular dependence 395, 1344 motors 212, 1198, 1214 perpendicular 1038 composition dependence 177, 1290 Dichroism random 229 thickness dependence 1310 circular magnetic 27, 958, 961 shape induced 505, 585 oherence effect 378, 585 Dielectric constant 191 stress-induced 1443 ‘old-rolling 58] Diffusion 1243 surface 594, 608 ‘olossal magnetoresistance 635 Diffusion thin films 169, 984, 1246 ‘ompeting interactions 1057 process 1236 uniaxial 132, 601, 1067, 1350 ‘omplex permeability 160, 224, 1142 Diluted magnetic semiconductors 13, 441 unidirectional 1012 ‘omplex susceptibility 205 Diluting magnetic semiconductors 924 planar 59] omposites 937 929 Dipolar interactions 1428 0304-8853/02/$-see front matter PII: S0304-8853(02)00237-8 1478 Subject index to volumes 242-245 Disordered systems 461, 879 Ferrimagnets Grain size 325, 470, 952 Domain dynamics 1097 —polycrystalline 1224 Grain size distribution 311 Domain pattern 21, 597, 772, 1047 Ferrite Grain size. TEM image 398 Domain structure 163, 391, 420, 1115, —hexagonal 1270 Grain structure 108, 631 1182, 1257, 1267, 1418 Ferrites 529, 617, 1460 Grain-oriented steel 257 Domain wall 1018 Ferrites spinel 381 Grains 1224 Domain wall dynamics 229, 973, 987, Ferrites Granular systems 434, 437, 470, 476, 482, 1085 —hexagonal 423, 430, 1405, 1408 485, 624, 631, 952 Domain wall motion 553, 1061 —spinel 157 Ground state Ferroelectrics 976 —phase diagram 1457 1353, 1356 Ferrofluids 613, 1240 Domain wall velocity 553 Ferromagnetic 532, 955, 1018, 1375 Half-metallic ferromagnetic oxides 98 Domains 505 Ferromagnetic clusters 1100 Half-metallic ferromagnets 489 Doping effects 645, 659, 1366 Ferromagnetic cylinder 1005 Hall effect 725, 1178, 1249 Double perovskite 686 Ferromagnetic films 492, 578, 964, 1290 Hall resistivity 105, 464 Dynamic Jahn-Teller effect 201 Ferromagnetic glass 904 Hard magnetic materials 41, 59, 891, 1300, Ferromagnetic material 1136 1314, 1321, 1366, 1395 Eddy currents 911, 1402 Ferromagnetic multilayers 437, 538 Hard magnets 1395 Eddy currents Ferromagnetic phase 895 HDDR 1372 loss 212, 1198, 1210 Ferromagnetic properties 139] Heat conductivity 719 Eigensystem 1230 Ferromagnetic resonance 177, 224, 254, Heat-treatment 1329, 1335 402, 521, 538, 686, 882, 1021, 1038, 1142 Electric transport 13 Heisenberg model 1221 Electrical resistivity 212, 450, 640, 668, Ferromagnetic semiconductors 105, 648 Heterogeneous ferromagnets 90 867 Ferromagnetic-nanoscale: electrodeposi- Heusler alloys 1421 Electrical resistivity tion 492 Hexagonal ferrite 413 —thermal dependence 665 Ferromagnetism 9, 662 High frequency permeability 146 Electrical steel 152, 268, 1153 Ferromagnets 1249, 1457 High pressure 659, 876, 931 Electrochemical behavior 850 Ferromagnets High-density recording 398 Electrodeposition 163, 238, 578 —amorphous 1321 High-field magnetization 59 —soft 285 Electromagnetic induction 1243 High-field measurements 813, 841 Field annealing 467 Electromagnetic waves 955 High-frequency carrier-type magnetic field Electron microscopy 108 Field calculations 1186, 1198, 1227, 1230 sensor 1142 Electron microscopy, high resolution 610 Field-induced anisotropy 146 High-frequency permeability 1126 Electron paramagnetic resonance 901 Fine particles 617, 621 High-silicon steel 208 Electronic structure 710, 931 Finite element method 1195, 1198, 1202, High-speed forging 1388 1218, 1227 Ellipsoidal particles 1009 High-temperature permanent magnets 1304 Embedding 1149 First-order transitions 1359, 1362 Hydrogen absorption 1277 Energy minimization 1018 Fluctuation field 434 Hydrostatic extrusion 581 Entropy 735, 870 Flux creep 1236 Hyperfine field 413 FMR 713 Epitaxy 489, 565, 568, 692 Hyperfine field distribution 621 ESR 939 Fokker—Planck equation 1002 Hyperfine fields EXAFS 166, 621, 904 Fractals 1243 magnetic 701 Exchange anisotropy 525 Hyperfine interactions 763, 1106 Exchange biasing 139, 515, 529, 544, 958, g-factor 686 Hysteresis 77, 116, 888, 987, 1034, 1047, 961, 1070, 1073, 1112 Garnet-substituted 1172 1089, 1221, 1234, 1317, 1431 Exchange coupling 939, 1277 Garnets 1249 Hysteresis curve 847 Exchange coupling Garnets Hysteresis loops 244, 257, 601, 973, 1112, double 655 thin films 772, 775 1402 insulators 1468 Gd compounds 813 Hysteresis loss 152, 1210 —magnetic 370 Gd;Fe;O;> 763 Hysteresis model 1067 multilayer 538 GdIG 763 Hysteresis —oscillations 5 3 5 Giant field-induced strain 1446 magnetic 1057 Exchange interactions 741, 823 Giant magneto-impedance effect 216 Excitation 778 Giant magnetoresistance 68, 473, 581, Impurities 457 Extraordinary Hall effect 90 624, 895 Induced anisotropy 1093 Glass ceramics 398 Information storage 108 Glass-coated amorphous microwires 247 Information storage-high density record- Faraday rotation 381, 1172 GMI 467 ing 388 Fast switching 426 GMR 341 Information storage Fe alloys 621 Grain boundaries 450, 1329 high density recording 434 Fe—Al 535 Grain boundary 1169 longitudinal 402 Subject index to volumes 242-245 —magnetic particles 1067 Magnetic anisotropy 335, 345, 374, 57 Magnetic surface anisotropy 1081 —perpendicular recording 297, 378 Magnetic birefringence 572 Magnetic susceptibility 575, 836 Inter-particle interaction 328 Magnetic bubbles 772 Magnetic thin films 187, 348, 362 Interaction effects 604, 1287 Magnetic circular dichroism, X-ray ab- Magnetic torque 41 Interdiffusion 547 sorption 861 Magnetic transitions 704 Interface effects 447 Magnetic clusters 473, 635, 1310 Magnetic tunnel junctions 457 Interface resistance 54] Magnetic coupling 374 Magnetic viscosity 194, 1317, 1468 Interface structure 53, 1012 Magnetic coupling interlayer 512 Magnetic vortices 1015 Interfaces 297 Magnetic coupling Magnetisation patterns 499 Intergranular coupling 321 —antiferromagnetic 547 Magnetisation process 1186 Intergranular interactions 952 —interlayer 1246 Magnetisation reversal 53, 1073 Intermetallic 907 Magnetic defects 1408 Magnetite 450, 479, 732, 1097 Intermetallic compounds 66, 797, 836, Magnetic domain structure 205 Magnetization 251, 662. 679, 713, 719, 841, 885, 1359, 1362 Magnetic domains 1081 760, 806, 864, 885, 939, 1157, 1314 Interparticle interactions 345 Magnetic dots 996, 1015 Magnetization curves 257, 265 Invar alloys 191 Magnetic entropy 698 Magnetization processes 77, 257, 996 Invar effect 781 Magnetic field 41, 1153, 1253, 1378 Magnetization profile 1439 Iron films 499 Magnetic field calculations 1206 Magnetization reversal 194 Iron-rare earth compounds 1388 Magnetic films 90, 416 388, 518, 544, 585, 627, 1002, 1097, Ising ferromagnet 757 Magnetic fluids 572 1341, 1344 Ising model Magnetic force 1195 Magnetization ripples 512 —spin-1/2 1044 Magnetic force microscopy Magnetization time dependent 518 —transverse 1044 1264, 1267 Magnetization-circular 294 Isotope effects 640, 651 Magnetic imaging 1253 Magnetization Itinerant electrons 813, 839 Magnetic interactions 921, 1103, 1224 —bulk 1435 Magnetic levitation 285 —curves 416, 1012, 1044 Jahn-Teller effect 935 Magnetic losses 77, 212, —demagnetization 33 Joule heating 952 Magnetic measurements 359, 668, 683, —distribution 1227, 1230 729, 809, 826, 829, 850, 924, 1153, 1234, —high field 645 1402 —models 1214, 1230 Kerr effect 244, 265, 964 Magnetic molecular materials 915, 946 —quantum tunnelling 915, 946, 1106 Kerr loop 1435 Magnetic moments 27, 741, 823, 958, 1190 —remanent 928 Kerr measurements 470, 547, Magnetic nanoparticles 90, 565 —reversal 21, 1070, 1224 Kerr rotation 108, 191, 384 Magnetic ordering, crystallographic 437 —rotation 276, 1064 Kondo effect 125 Magnetic orientation 601 —surface 1435 Kubo formalism 464 Magnetic oxides 447, 665, 668, 672, 676, -temperature dependent 716 686, 704, 710, 725, 738, 754, 760, 976 —time dependent 1070, 1453 La» 3Ca; ;MnQO; 98 Magnetic particles 335, 348 demagnetization 1115 Langevin dynamics 426 Magnetic permeability 216 Magneto-elastic sensors 1460 Langevin equation 999 Magnetic phase diagrams 876, 1359 Magneto-optical effects 191, 627 Lanthanum strontium manganese oxide Magnetic phase transitions 931 Magneto-optical films 381 686 Magnetic powders 84 Magneto-optical properties 173, 473 Large Barkhausen jump 216, 1439 Magnetic printing 499 Magneto-optics 535, 907, 964, 980 Laser deposition 157, 391, 1294 Magnetic properties 235, 624, 844, Magneto-volume effect 781 La» 3Sr; 3MnO; 98 854, 1307, 1464 Magnetocaloric effects 760, 841, 870, 873 Laves phase compounds 839 Line broadening 521 Magnetic recording 163, 304, 423, 430, Magnetocrystalline anisotropy 321, 832, 499, 1030, 1163 844, 1356, 1362, 1384 Linear actuator 1195 Linewidth Magnetic recording heads 3 Magnetodynamics 1005 frequency dependent 1021 Magnetic recording media 3 Magnetoelastic anisotropy 247 temperature-dependent 686 331, 338, 348, 352, 362, : Magnetoelastic coupling 788 Local moments 701 588, 1249 Magnetoelastic deformation 1446 Longitudinal magnetic recording media Magnetic recording Magnetoelastic effect 251, 1126 321 —perpendicular 311, 1294 Magnetoelastic energy 1428 Lorentz electron microscopy 1073 Magnetic refrigeration 698 Magnetoelastic waves 1431 Lorentz microscopy 180 Magnetic relaxation 437, 946, 1089 Magnetoelasticity 269 Low temperature GaAs 967 Magnetic scanners 1119 Magnetoimpedance 238, 288, 291, 294 Low-dimensional systems 735 Magnetic semiconductors 967 Magnetomechanical coupling 241 Low-field MR 1169 Magnetic sensor 1160, 1169 Magnetometry 9!1, 964, 984, 993 Magnetic shape memory alloy 1446 Magnetoresistance 13, 47, 201, 461, 476, Maghemite 588 Magnetic silence 1190 479, 651, 659, 668, 679, 692, 701, 725, MAGMAS 1119 Magnetic structure 3, 645, 729, 738 729, 921, 1132 1480 Subject index to volumes 242-245 Magnetoresistance Mossbauer spectroscopy Permanent magnets 1136, 1270, 1277, giant 495, 631, 648, 689, 7 -ferrites 1405 1325, 1381, 1388 melt-spun ribbons 273 RE-TM compounds 1338 rare earth 1338, 1341, 1344, 1369 multilayer 541 —RE-TM compounds 1297 Permeability 84, 157, 279, 282 theory 453, 482 Multilayer film 943 Permeability-complex 970 thin films 450, 707 Multilayers 544, 547, 1411, 1425 Perovskite manganites 698 transition metals 695 Multilayers metallic 518 Perovskite structure 544, 645, 648, Magnetoresistive sensors 98 Muon spin rotation 635 662, 672, 676, 692, 722, 744, 751, 760, Magnetostatic 1024 935 Magnetostriction 66, 269, 581, 788, 1119, Nanocrystalline alloys 1077 Perovskites 719 1132, 1163, 1411, 1418, 1443, 1450, Nanocrystalline materials 84, 180, 229, Perpendicular magnetic recording 304 1457, 1460 235, 265, 282, 325, 1093, 1109, 1277, Perpendicular recording 426 Magnetostriction 1366, 1443 Phase angle 1175 giant 648 Nanocrystallization 273 Phase separation 1100 saturation 1218 Nanodot 1024 Phase shift 964 stress dependence 1435 Nanogranular alloy 470, 627 Phase transition-amorphous-crystalline surface 1428 Nanogranular alloy films 420 108 zero 25] Nanoparticles 21, 132, 317, 505, 568, 572, Phase transitions 66, 655, 891, 898 Magnetostrictive materials 1425 594, 597, 604, 608, 610, 627, 993, 1021, electronic 645 Magnetostrictive wires 1431 1034, 1103 magnetic 935, 1457 Magnetron sputtering 374 Nanowires 1061 martensitic-like 1457 Manganites 640, 655, 679, 686, 1166 Neel theory 1034 metal-insulator 751 Martensitic transformations 1421, 1446 Neutron depolarization 1115 second-order 716 Material testing 1253 Neutron diffraction 59, 201, 738, 747, —spin reorientation 955 MBE 967 832, 839 -structural 1457 ME tape 345 Neutron scattering 689 Phonons Mean-field approximation 817. 1030 Neutron scattering bottleneck 1106 Mechanical alloying 885, 1103 -polarised 781 Photoacoustic effect 716 Medical applications 41 Nickel ferrite 572 PHR 1175 Medium frequency 1210 NMR 635, 668, 763, 935, 1139 Piezoelectric-magnetostrictive materials Melt-spun permanent magnets 1304 NMR 1160 Melt-spun ribbon 1307 —spin echo 235, 672, 676, 701, 732, 766, Planar hall effect 525 MEMS 1146, 1149 769, 1408 Planar heads 341 Metal evaporated tape 355 Noise reduction 398 Planarization 1149 Metallic glasses 847 Non-Fermi liquid 125 Plastic deformation 152 Metal-insulator phase transitions 447 Non-linear transport 485 Point-contact spectroscopy 858, 867 Metamagnetic transition 873 Non-uniform micromagnetic states 1009 Polar Kerr effect 907 Metamagnetism 803, 876 Nuclear magnetic resonance 943 Polarons 635, 665 Metastable phases 285, 288 Numerical micromagnetics 999 Polymer-bonded composites 1460 Micro coils 1149 Numerical simulations 291, 1061, 1198, Powder metallurgy 232 Micro inductor 146 1227, 1234, 1236, 1240 Power meter 1175 Micro-magnetic structures 1119 Power transformers 1210 Microdomains 1249 Object-oriented software 1234 Precipitation 1356 Microinductor 1206 One-dimensional systems 1061 Preisach model 1030, 1034 Micromagnetic calculation 405, 409, 553, Optical cross-connect 1119 Pressure effect 757, 797 1038, 1047, 1052, 1257, 1267 Optical phonons 651 Propulsion motor 1190 Micromagnetism 426, 594, 1024, 1097, Order—disorder 208 Pulsed laser deposition 529, 565, 1290 1356 Overwrite 398 Pyrochlores 725 Microstructures 355, 362, 949, 1119, 1186, Oxidation 1338 Quadrupolar interaction 1329, 1353 splitting 935 Modelling 1190, 1210 Parallel permeability 247 Quality factor optimization 1206 Monte Carlo simulations 1221 Paramagnetic resonance 1100 MR 1175 Particle-Ba ferrite 328 Raman scattering 1405 Mossbauer spectra 1411 Particles-size 850 Random anisotropy 1089 Mossbauer spectrometry Particulate recording media 366 Random magnetic field 550 amorphous alloys 1310 Pattern formation 578 Rare earth 568, 1375 Mossbauer spectroscopy 197, 2 Percolation 640, 1103 Rare earth alloys 1366 413, 423, 613, 621, 747, 806 Permalloy 173, 1182, 1267 Rare earth intermetallics 854 Mossbauer spectroscopy on Fe-alloys 208 Permalloy thin films 521, 1119 Rare earth magnets 1284 Mossbauer spectroscopy Permanent magnet Rare earth permanent magnets 1304, Fe compounds 744 rare earth 1329 1335, 1347 Subject index to volumes 242-245 Rare-earth—transition-metal compounds Sintered magnets 1329, 1347, Stress-induced anisotropy 521 803, 823, 832, 844, 850, 861, 864, 873. Skin effect 33, 1210, 1243 Stress 1064, 1290, 1381, 1384 Sm doping 1464 tensile 276 Rare earth-transition compounds Small particles 575, 591 Stripe magnetic domains 1264 interstitial nitride 59 Smart actuator 1163 Structural disorder 729 Rare earth-transition metal alloys 806, Soft ferrite 160 Structural ordering 744 847 Soft magnetic amorphous systems 1093 Structural phase transition 713 Rare earth Soft-magnetic films 146, 180 Structural relaxation 904 intermetallic compounds 125 Soft magnetic materials 33, 77, 163, Structure 844, 1307 ions 1106 177, 232, 235, 269, 325, 499, 1085, Structuring 1146 permanent magnets 1195, 1294, 13 1425 Substitution effects 423, 430, 1270, 1405 transition metal amorphous compound Solid solutions 741, 879 Superconductivity 9 1178 Solitons 1015 magnetic 829 Rare-earth 532 Sol-gel 430, 1169 Superconductors Rare-earth alloys 1314 Sol-gel method 197, 413, 692 high-T. 1236 Rare-earth intermetallic compounds 809, Specific heat 617. 683, 695, 813 Superparamagnetic particles 613 826, 876 Specific heat Superparamagnetism 473, 624, 850, 952, Rare-earth permanent magnet 1186 low temperature 915 1021, 1077, 1109 Rare-earth—intermetallic compounds 870 temperature dependent 735 Surface crystalline 467 RE coumpounds 817 Spectroscopy time domain 559 Surface effects 575, 613 Re-entrant spin glass 1115 Spectroscopy-point contact 747522 Surface magnetism 710 Relaxation 288, 518 Spin correlations 778 Surface spin waves 608 Relaxation effect 604, 973 Spin diffusion 479 Surface structure 980 Relaxation Spin dynamics 559 Surface waves 980 magnetic 631 Spin echo 1139 Susceptibility nuclear 672, 676 Spin electronics 105 complex 261 Remanence 1287 Spin fluctuations 839 magnetic 901 Remanence curves 297, 345, 1057 Spin freezing 617, 946 paramagnetic 809, 826 Resistivity 662, 719, 797 Spin glass 879, 924 relaxation 26] temperature dependent 716 Spin glass state 921 static 1044 Resonance Spin injection 68, 105, 479 transverse 33 -ferromagnetic 970 Spin polarization 47 AC 624 Resonant tunneling 457 Spin reorientation 1384 Switching field 216, 1439 Reversal mechanism 355, 395, 1103 Spin reorientation transitions 832, 1246 Switching time 1002 RF sputtering 692 Spin valves 53, 1132 Synchrotron radiation 3 Rotating cryostat 183 Spin waves 689 theory 1041 Temperature effects 1034, 1468 surface modes 591 Terfenol 1453 Sacrificial layer 1146 Spin-dependent scattering 482. 541 Ternary nitrides 1388 Sandwiches 1411 Spin-glass 125 Texture 317, 1218, 1277, 1284, 1290 Saturation induction 1136 Spin-glass state 895 Thermal activation 993, 999, 1073 Saturation magnetization 77 Spinel 921 Thermal conductivity 640 Scaling 608 Spin-orbit interaction 461, 464 Thermal stability 328, 335, 388, 405, 409, Scanning 1378 Spin—phonon interactions 915, 1106 1052, 1335 Scattering theory 3 Sputtering 492 Thermodynamics 89] Screen printed sensors 98 Sputtering magnetron 541, 1284 Thermoelectric transport 665 Semiconductor—metallic transition 679 Sputtering Thermomagnetic analysis 898 Semiconductors 704 ion beam 775 Thermomagnetic properties 698 liI-V 489 SQUID 132, 924, 993, 1139 Thermomagnetics 888, 1378 magnetic 13 Sr hexaferrite 1464 Thermopower 867 Sensor devices 216 SroFeMoO, 98 rhickness phase transition 1081 Sensors 1132, 1136, 1153, 1166, 1202, Stability 1381 Thin film growth 1284 1253 Stainless steel 1391 Thir. films 108, 183, 304, 374, 384, 476, magnetostrictive 241, 1163, 1443 Statistical model 366 515, 529, 594, 958, 1126, 1132, 1264, Severe plastic deformation 1399 Step edge decoration 565 1300, 1411 Shape induced anisotropy 1257 Stoner—Wohlfarth model 132, 993, 1093, Thin films sputtering 381 Shape memory alloys 1421 1468 Thin films Si-steels 205 Stray field 1224 amorphous 166 Silicon steel 212 Stress effect 254 bilayer 1012 Simulation 341, 1024 Stress relieving 152 epitaxial 173, 1294, 1450 Single-domain radius 1009 Stress sensors 1126 ferromagnetic 177, 416, 970, 1038, 1482 Subject index to volumes 242-245 —magnetic 370, 3 Transmission electron microscope 53, 311 Unidirectional anisotropy 139, 847 1172 Transmission electron microscopy 362, Uranium 907 —monolayer 157, 1041 588, 1325, 1353 —multilayer 297, 541, 601, 973 Transport properties 453, 495 Valence states 741 -permalloy 559, 1047 Transverse susceptibility 604 Vibrating sample magnetometer 197, -sandwich 291, 495 Triangular lattice 772 Vicinal surfaces 1041 sputtered 317, 949 Tunnel junctions 68 Viscoelastic strain 1453 —thickness 447, 1157 Tunnel magnetoresistance 105 Vortex 1005 trilayer 453 Tunneling 47, 453, 476, 485, 495, 512, 722, Thin-film synthesis 405, 409 1261 X-ray absorption 958 Tight-binding calculation 457 Two-dimensional systems 778 X-ray dichroism 961, 1246 Torque magnetometry 984, 115 X-ray diffraction 352, 931, 1112, 1 Transducers 1240 UHF (ultra-high frequency) 970 X-ray phase analysis 885 Transformers 84, 212 Ultra high vacuum method 568 X-ray photoelectron spectroscopy 864 Transient performance 1214 Ultrafine-grained structure 1399 X-ray scattering 610 Transition metal-alloys 27 Ultrasonic attenuation 707 XY model 778 Transition metal Ultrasonic velocity 713 films 416 Ultrathin cobalt film 1081 YIG ferrites 763 Transition temperature 550 Uniaxial anisotropy 183 Yttrium iron garnet 766, 769 FA \ournal of M magnetic IA materials ELSEVIER Journal of Magnetism and Magnetic Materials 242~245 (2002) 1483—1484 www.elsevier.com/locate/jmmm Materials index to volumes 242-245 Ag 479, 581 Co Fe-Si-B-Nb 224 Fe-Cu-Zr-B_ 882 Ag-Fe 952 Co Mn-Si-B 216 FeNiMn 1115 Al 535, 601, 911 Co Nb 993 Fe-Mn 525 Al,O; 476, 485, 521, 575, 943, 1261 Co Nb-—Cu-Si-B_ 1077 2-Nb-B 235 AlMnAs_ 967 Co Nb-Zr_ 169, 970, 1142 Nb-Cu-Si-B_ 1431, 1443 AIN 304 Co-Ni 345, 370, 608, 627 >—Ni 191, 291, 781 Au 532, 958, 1081 Co Ni-Fe 163 >—Ni-Co-—Zr—Cu-Nb-B 904 Co Ni-Mg-N 416 —Pr-B_ 1399 B 434 Co Ni-O 378 —Pt 891 Ba ferrites 304, 328, 391, 423, 430, 1468 Co-P 238 ‘e-Si 166, 187, 208, 257 Ba—La—Fe-Co-O 1395 Co-Pt 90, 434 Si-B_ 269, 1431, 1435 Ba-Sr ferrites 413 Co-Rh 610 ‘e-Si-B-Nb-Cu 282, 1109 Bi garnet 1172 Co Si-B 1439 ‘e-Ta-C 325 Bi;FesO,> 775 Co Zr-Gd_ 1178 Ta—N 146 BiMnO; 976 CoO 139, 362, 958 >-Zr(N) 180 (Bi, Sr)MnO,; 645 CoPt 27 >Zr-B 621 Ce Pt; 420 Zr-Cu 273 Ca,FeMoO, 1221 CoPt 437 r--Cu-Ru 273 CaCosO2 757 Cr 395 66 Carbon 317 Cr alloys 352 FePt 27, 317 (Ca, Sm)MnO,; 695 CE Fe-Mn_ 895 Ferrite 157 CdCr.Se, 924 Cr Vi 388 (Cd, Mn)Te 13 Cr Or, 13,98 y-Fe,O; 381 Ce>Fe, 797, 876 Cu 1 291, 538, 541, 879, 911, 1246 GaAs 470, 489, 597 Ce-Ni-Cu 125 Cr iAu 538 (Ga, Mn)As_ 13, 105, 441 Co 47, 132, 139, 297, 362, 370, 374, 492, Ci iC D 939 Garnet 763, 766 SES; 508s S47, STS: 578, 591, 601, 604, Cr i-Cr-Sb-S 921 GdBaCo,0; ; 75] 958, 961, 973, 984, 996, 1057. 1081, (Gd, Ce) 04B S09 1246, 1257 E1 Co, 873 Gd-Co 547 Co ferrites 194, 1460 Er TbCo, 870 GdFe,Ge, 813 (Co, Mn)>P 93] (I u, Nd, Sr)MnO,; 648 GdNi3Al;, 864 Co.NbSn_ 888 Gd-Ni-Cu_ 125 CoFe 476, 485, 512, 943 Fe 183, 335, 499, 532, 535, 565, 5 Gd-Pt-Cu 125 CoFe, 9La9 ;O4 197 601, 631 (Gd, Y)Co; 817 CoFe; oYo 104, 197 Fe 915 Ge 719 CoFe,0, 613 Fe 973. 984. 1103 CoN 384 Fe garnets 1249 HoCo> 87 Co-Ag 90 Fe 304 381, 381, 381, 450, HoCus 858 Co-alloys 352 Fe \lO, 732 HoFel ITi 1064 Co-B_ 1126 Fe Co 1126, 1132 Co-Cr 378 Fe Mn 879 IrMn_ 1070, 1073 Co-Cr—Nb-Pt 311 Fe Al—-Cu-Nb-Si-B 177 Co-Cr—Pt-Ta 321, 388, 402 Fe B-Si-C 216 KCuF, 935 Co-Cr-Ta 325, 395, 398 Fe Co 285, 1428 Co-Cu 473, 624 —Co-B 1085 La—Ca—Mn-O 544, 692 Co-Fe 1070, 1073 “e-Co-B-Si 146, 1126 (La, Ba)MnO, 698 Co—Fe-Cr-Si-B 241 2. Co Mo-Si-B 970 (La, Ca)MnO, 447 Co—Fe—Mo-Si-B_ 169 >-Co-Si-B 33, 1163 (La, Ca)MnO, 665. 676. 698. Co—Fe—Ni-B-Si 247, 261 ‘e-Cu Nb-Si-B 84, 216, 229, 265, 276, 719 Co-—Fe-Si-B 244, 251, 254, 288, 294, 467 279 (La, Ca, Cd)MnO,; 679 0304-8853/02/$-see front matter PII: S0304-8853(02)00240-8 1484 Materials index to volumes 242-245 La—Co ferrites 1270, 1408 Nis»MnGa 66, 781, 1421 1353, 1356 (La, Nd, Ca)MnO,; 651 Ni3Fe 885 Sm—Co-Ti 1350 La—Ni-Mn-—Al-—Co-Fe 850 Ni3;Fe-N 949 Sm-Fe-B_ 1297 (La, Pr, Ca)MnO; 640 NiFe,O4 529, 572 Sm—Fe-N_ 1341, 1344, 1395 Lag 7Sto.3MnO; 710 NiMnSb 489 (Sm, Nd, Pr)-Co-Mn_ 844 (La, Sr),>FeO4 741 Ni-Fe 163, 525, 1175, 1182 (Sr, Ba);>FeMoO, 747 (La, Sr);Mn,O; 686 Ni-H_ 898 Srf errite 1405 (La, Sr)CoO,; 754, 760 Ni-Mn-Ga_ 1446 Sr ferrites 1249 (La, Sr)MnO,; 447 Ni-Zn ferrites 160 Sr hexaferrites 1464 (La, Sr)MnO; 668, 689. 698. 7 NiO 515, 529, 1175, 128 Sr»FeMoO, 98, 701, 729, 744 1166, 1169 NpO, 3 Steel 1153, 1218, 1391 (La, Zn)MnO, 659 Sulfur spinel 201 Li(Y—Ho)F4 1106 Pd 297 LiFeO, 738 Permalloy 21, 173, 521, 538, 541, Tb 532, 568 Lu>Fe,7; 876 585, 1047, 1267 Tb;(Si, Ge) 841 (Pr, Ba)MnO; 662 Tb-Dy-Fe 1453 Maghemite 588 Pr>(Fe-Co-—Zr) 4B 1372 Ib-Fe-Co 1411, 1425 Manganites 635, 655, 672, 7 PrsCoj7 Fe, 1359, 1362 (Tb, Nd, Sr)MnO; 648 Mn, 6Fe; 404 381 PrCo,Al 832 Ti-Mn-Sb_ 901 Mn,>—methanoate 946 Pr—Fe-B 1277 £575, £399 Ti-Sr-Sb_ 901 MnAs_ 470 (Pr, Tb).(Fe,Nb),4B 1307 (Ti, Sc)Fe. 839 MnF, 928 Pt 601 Tl,Mn,O, 725 MnFe,0, 617 PtMn 96] PtMnSb 384 UGa, 907 NaV,0; 735 Pt-Mn-Cr 1112 U-Fe-Si-C 1384 NdCu_ 867 PZT 1163 UO, 3 NdFeB 1378 Nd-Fe-Al 847, 1310, Ri2M,¢Sn_ 854 (Y, Dy)BaxCu306 1100 Nd—Fe-Al-B_ 1314 R5Fe;7N; 59 Y(Fe, Si); ;Ti 823 Nd-Fe-B 41, 1277, 1284, 1294, 1300, REI @13X 806 Y>Co)7_,Fe, 1359 1325, 1369, 1375 Ru 512 Y>Fe,7 876 Nd-Fe-Mo-N_ 1338 Y3(Co, M),;By 826 Nd—Fe-Pb-B_ 1366 Si 291 YCo,Al 832 Nd—Fe-Ti-Nb_ 1381 Si steel 152; 205. 212 YCo,B_ 861 Nd-Fe-V_ 1388 SiO, 437, 627, 631. 1103 Y DyNi»B3C 829 (Nd, La)-Fe-Al 803 SmFe> 581, 1450 YFe>_.V. 836 Nd-—Pr—B-—Al-Cu-—Co-Fe 1329 Sm-Co 1146, 1277, 1287, 1290 YIG 769 (Nd, Sr, Ca)MnO;_ 683 Sm-—-Co Cu 13t7 YMnO, 976 (Nd, Tb)-Fe-Mo_ 820 Sm-—Co Cu-Ti 1350 Y—Co-—Fe-Cu-Zr 1335 Ni 90, 492, 518, 1246, 1264 Sm—Co Fe-Cu-Zr 1304, 1347, Y-Fe 1425

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