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Journal of Magnetism and Magnetic Materials 2002: Vol 250 Index PDF

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ZA \ournal ot MA inateriais ELSEVIER Journal of Magnetism and Magnetic Materials 250 (2002) 370-372 www.elsevier.com/locate/jmmm Author index to volume 250 Abadia, A.R., see Lazaro, F.J. Chang, Y.-C., see Velev, J. Antoniadis, E., see Zaspalis, V.T. Chen, S., see Dong, C. Awana, V.P.S., J. Nakamura, M. Karppinen, H. Conde, A., see Blazquez, J.S. Yamauchi and §.K. Malik, Glass component in- Cui, B.Z., X.K. Sun, Y.C. Sui, D.Y. Geng and Z.D. duced hysteresis/memory effect in magnetoresistance Zhang, Phase transformation and magnetic proper- of Pro oSto,; CoO?9 9 ties of Nd—Fe-V-—Nb alloys prepared by mechanical alloying Babu, P.D., see Balakrishnan, K. Balakrishnan, K., P.D. Babu, V. Ganesan, R. Srinivasan Davies, H.A., see Blazquez, J.S. and S.N. Kaul, Magnetoelastic study of amorphous Dhar, S.K., see Singh, S. Feoo + .ZT 10—x alloys Dittrich, R., T. Schrefl, D. Suess, W. Scholz, H. Forster Bandyopadhyay, A.K., see Holland, P. and J. Fidler, A path method for finding energy Bao, J., J. Zhou, Z. Yue, L. Li and Z. Gui, Dielectric barriers and minimum energy paths in complex behavior of Mn-substituted Co»Z hexaferrites micromagnetic systems Bentaleb, M., N. El Aouad, B. Laaboudi and M. Saber, Dlouha, M., see Jirak, Z. Magnetic properties of the transverse ferrimagnetic Dong, C., S. Chen and T.Y. Hsu (Xu Zuyao), A simple bilayer system with disordered interfaces model of giant magneto-impedance effect in amor- Bertorello, H.R., see Billoni, O.V. phous thin films Billoni, O.V., S.E. Urreta, L.M. Fabietti and H.R. Dooryhee, E., see Schobinger-Papamantellos, P. Bertorello, Coercive properties of Nd,Fe,4B+aFe Du, A., see Jiang, W. nanocrystalline composites exhibiting wide distribu- Du, Y., see Peng, K. tions of switching fields in the frame of the Global Dubey, A., see Holland, P. Nucleation Model Ducouret, A., see Sriti, F. Birringer, R., see Michels, D. Blazquez, J.S., V. Franco, A. Conde, M.R.J. Gibbs, Ebisuzaki, T., see Elmegreen, B.G. H.A. Davies and Z.C. Wang, The evolution of El Aouad, N., see Bentaleb, M. magnetostriction and coercivity with temperature in El-Shaer, N.A., see Mansour, M.A. the early stages of nanocrystallisation in FeCoNbB Elaissari, A., see Montagne, F. (Cu) alloys Elmegreen, B.G., R. Koch, K. Yasuoka, H. Furusawa, Blazquez-Gamez, J.S., see Szumiata, T. T. Narumi, R. Susukita and T. Ebisuzaki, Numerical Boehm, M., S. Martynov, B. Roessli, G. Petrakovskii simulations of magnetic materials with MD- and J. Kulda, Spin-wave spectrum of copper GRAPE: curvature induced anisotropy metaborate in the commensurate phase 10 K <7 <2 1K Fabietti, L.M., see Billoni, O.V. Bombik, A., B. Lesniewska and A.W. Pacyna, AC Fidler, J., see Dittrich, R. susceptibility of powder TbFe, ,Al,O; and Fitch, A.N., see Schobinger-Papamantellos, P. TbFe,_ .Ga,O; solid solutions Forster, H., see Dittrich, R. Brzozka, K., see Szumiata, T. Franco, V., see Blazquez, J.S. Bukhanko, A.F. and A.L. Sukstanskii, Optics of a Furusawa, H., see Elmegreen, B.G. ferromagnetic superlattice with noncollinear orienta- tion of equilibrium magnetization vectors in layers Ganesan, V., see Balakrishnan, K. Biirgler, D.E., see Hoffmann, R. Gao, W., see Peng, K. Buschow, K.H.J., see Schobinger-Papamantellos, P. Gawronski, M., see Szumiata, T. 0304-8853/02/$- see front matter PII: $S0304-8853(02)01200-3 Author index to volume 250 Geerts, W.J., see Holland, P. Ll Laiho, R., K.G. Lisunov, E. Lahderanta, J. Salminen Geng, D.Y., see Cui, B.Z. 212 and V.S. Zakhvalinskii, Low-field magnetic proper- Gibbs, M.R.J., see Blazquez, J.S. 260 ties as indication of disorder, frustration and cluster Gorka, B., see Szumiata, T. 83 formation effects in La;_,.Ca,Mn,_,Fe,O; Greneéche, J.M., see Szumiata, T. 83 Lakshman, A., K.H. Rao and R.G. Mendiratta, Gschneidner Jr., K.A., see Zhang, W. 170 Magnetic properties of In** and Cr** substituted Gui, Z., see Bao, J. 131 Mg-—Mn ferrites Gintherodt, H.-J., see Hoffmann, R. 32 Larrea, A., see Lazaro, F.J. Lazaro, F.J., A. Larrea, A.R. Abadia and M.S. Romero, Hamada, I.M., see Tawfik, A. 77 Magnetic study of iron sorbitol Hanbicki, A., see Rubinstein, M. Lee, S.-R., see Park, J.-S. Hejtmanek, J., see Jirak, Z. Lesniewska, B., see Bombik, A. Hemeda, O.M., see Tawfik, A. Levin, E.M., see Zhang, W. Hervieu, M., see Jirak, Z. Li, J., see Sun, J. Hoffmann, R., D.E. Biirgler, P.J.A. van Schendel, H.J. Li, L., see Bao, J. Hug, S. Martin and H.-J. Giintherodt, Perpendi- Li, Z.-Y., see Ju, S. cular magnetic domains of a thin Ag/Fe/Ag film Lim, S.H., see Park, J.-S. observed by magnetic force microscopy at room Lisunov, K.G., see Laiho, R. temperature Longtu, L., see Yang, B. Holland, P., M. Kempton, D. Ragan, S. Rios, A.K. Lubitz, P., see Rubinstein, M. Bandyopadhyay, A. Dubey and W.J. Geerts, The magnetic hysteresis of NiFe-31% thin films under Malik, S.K., see Awana, V.P.S. isotropic in-plane stress Manfrinetti, P., see Singh, S. Hsu (Xu Zuyao), T.Y., see Dong, C. Mansour, M.A. and N.A. El-Shaer, Effect of magnetic Hug, H.J., see Hoffmann, R. field on non-Darcy axisymmetric free convection in a power-law fluid saturated porous medium with Jezuita, K., see Szumiata, T. variable permeability Ji, Z., see Yang, B. Marin, C.N., The particle concentration effect on Jiang, W., G.-Z. Wei and A. Du, A ferromagnetic or magnetic resonance linewidth for magnetic liquids ferrimagnetic bilayer system with a transverse crystal with chain aggregates field Martin, C., see Sriti, F. Jirak, Z., J. Hejtmanek, K. Knizek, M. MarySko, Martin, S., see Hoffmann, R. E. Pollert, M. Dlouha, S. Vratislav, R. Kuzel and Martinez, J.R., see Ponce-Castaneda, S. M. Hervieu, Structure and magnetism in_ the Martynov, S., see Boehm, M. Pr, _,.Na,Mn0O, perovskites (0x <<0. 2) Marysko, M.., see Jirak, Z. Jonker, B., see Rubinstein, M. Matutes-Aquino, J.A., see Ponce-Castaneda, S. Ju, S. and Z.-Y. Li, Study of the temperature Mendiratta, R.G., see Lakshman, A. dependence of giant magnetoresistance in metallic Michels, D., C.E. Krill II] and R. Birringer, Grain-size- granular composite dependent Curie transition in nanocrystalline Gd: the influence of interface stress Kanchana, V., G. Vaitheeswaran and M. Rajagopalan, Mizushima, T., see Tamura, I. Pressure-induced structural and magnetic phase Mondain-Monval, O., see Montagne, F. transition in ferromagnetic CrTe Montagne, F., O. Mondain-Monval, C. Pichot, H. Karppinen, M., see Awana, V.P.S. Mozzanega and A. Elaissari, Preparation and Kaul, S.N., see Balakrishnan, K. characterization of narrow sized (o/w) magnetic Kempton, M., see Holland, P. emulsion Kim, Y.K., see Park, J.-S. Mozzanega, H., see Montagne, F. Knizek, K., see Jirak, Z. Koch, R., see Elmegreen, B.G. Nakamura, J., see Awana, V.P.S. Krebs, J.J., see Rubinstein, M. Nalbandian, L., see Zaspalis, V.T. Krill III, C.E., see Michels, D. Narumi, T., see Elmegreen, B.G. Kulda, J., see Boehm, M. Nguyen, N., see Sriti, F. Kulik, T., see Szumiata, T. Kuzel, R., see Jirak, Z. Osofsky, M., see Rubinstein, M. Laaboudi, B., see Bentaleb, M. Pacyna, A.W., see Bombik, A. Lahderanta, E., see Laiho, R. Palenzona, A., see Singh, S. Author index to volume 250 Palomares-Sanchez, S., see Ponce-Castaneda, S. 160 Sun, G., see Sun, J. Pan, F., see Yang, G.H. 249 Sun, J., J. Li and G. Sun, Effects of La.O,; and Gd,O; on Papazoglou, E., see Zaspalis, V.T. some properties of Ni—Zn ferrite Park, J.-S.. S.-R. Lee, Y.K. Kim and S.H. Lim, Sun, X.K., see Cui, B.Z. Parametric sensitivity analysis on the giant magne- Susukita, R., see Elmegreen, B.G. toresistive characteristics of synthetic antiferromag- Szumiata, T., K. Brzozka, M. Gawronski, B. Gorka, K. net-based spin-valves Jezuita, J.S. Blazquez-Gamez, T. Kulik, R. Zuberek, Peng, K., W. Qin, W. Gao, F. Xu and Y. Du, A. Slawska-Waniewska and J.M. Grenéche, Evolu- Magnetization process in NANOPERM-type nano- tion of the hyperfine and magnetoelastic parameters crystalline alloy in the course of crystallization process in niobium- Petrakovskii, G., see Boehm, M. free FINEMET-type alloy Pichot, C., see Montagne, F. Pollert, E., see Jirak, Z. Tamura, I. and T. Mizushima, Explanation for magnetic Ponce-Castafieda, S., J.R. Martinez, F. Ruiz, S. Palo- properties of interacting iron oxide nanocrystals mares-Sanchez and J.A. Matutes-Aquino, Magnetic Tawfik, A., 1.M. Hamada and O.M. Hemeda, Effect of properties enhancement of M-Ba ferrites embedded laser irradiation on the structure and electromecha- in a SiO, matrix nical properties of Co—Zn ferrite Tsakaloudi, V., see Zaspalis, V.T. Qin, W., see Peng, K. Urreta, S.E., see Billoni, O.V. Ragan, D., see Holland, P. Rajagopalan, M., see Kanchana, V. Vaidyanathan, G., R. Sekar, R. Vasanthakumari and A. Ramanathan, A., see Vaidyanathan, G. Ramanathan, The effect of magnetic field dependent Rao, K.H., see Lakshman, A. viscosity on ferroconvection in a rotating sparsely Raveau, B., see Sriti, F. distributed porous medium Rios, S., see Holland, P. Vaitheeswaran, G., see Kanchana, V. Rodriguez-Carvajal, J., see Schobinger- Van Schendel, P.J.A., see Hoffmann, R. Papamantellos, P. Vasanthakumari, R., see Vaidyanathan, G. Roessli, B., see Boehm, M. Velev, J. and Y.-C. Chang, Perpendicular giant magne- Romero, M.S., see Lazaro, F.J. toresistance in Fe/Cr nanowires Rubinstein, M., A. Hanbicki, P. Lubitz, M. Osofsky, J.J. Vratislav, S., see Jirak, Z. Krebs and B. Jonker, Ferromagnetic resonance in (Ga,Mn)As Wang, Z.C., see Blazquez, J.S. Ruiz, F., see Ponce-Castafeda, S. Wei, G.-Z., see Jiang, W. Saber, M., see Bentaleb, M. Xu, F., see Peng, K. Salminen, J., see Laiho, R. Schobinger-Papamantellos, P., J. Rodriguez-Carvajal, Yamauchi, H., see Awana, V.P.S. K.H.J. Buschow, E. Dooryhee and A.N. Fitch, Re- Yang, B., Z. Ji, G. Zhilun and L. Longtu, Magnetic entrant magneto-elastic transition in HoFe,Ge>: an properties of non-stoichiometric Y-type hexaferrite XRPD study Yang, G.H. and F. Pan, Structural and magnetic Scholz, W., see Dittrich, R. properties of Co/Mo multilayers Schrefl, T., see Dittrich, R. Yasuoka, K., see Elmegreen, B.G. Sekar, R., see Vaidyanathan, G. Yue, Z., see Bao, J. Sikalidis, C.A., see Zaspalis, V.T. Singh, S., S.K. Dhar, P. Manfrinetti and A. Palenzona, Zakhvalinskii, V.S., see Laiho, R. Magnetic properties of R,;CuySng (R=La, Pr, Nd Zaspalis, V.T., E. Antoniadis, E. Papazoglou, V. and Sm) Tsakaloudi, L. Nalbandian and C.A. Sikalidis, The Slawska-Waniewska, A., see Szumiata, T. effect of Nb2O; dopant on the structural and Srinivasan, R., see Balakrishnan, K. magnetic properties of MnZn-ferrites Sriti, F., N. Nguyen, C. Martin, A. Ducouret and B. Zhang, W., E.M. Levin and K.A. Gschneidner Jr., The Raveau, Key role of the charge distribution in the magnetic properties of Tb(Mn,_ ,Fe,)» solid solu- properties of the Ba,.FeMo,_,Re,O, double perovs- tions with 0.35<x<0.65 kites Zhang, Z.D., see Cui, B.Z. Suess, D., see Dittrich, R. Zhilun, G., see Yang, B. Sui, Y.C., see Cui, B.Z. Zhou, J., see Bao, J. Sukstanskii, A.L., see Bukhanko, A.F. Zuberek, R., see Szumiata, T. M maps PA vrais ELSEVIER Journal of Magnetism and Magnetic Materials 250 (2002) 373-374 www.elsevier.com/locate/jmmm Subject index to volume 250 AC magnetic susceptibility 170 Ferrofluid 302 Magnetic moment 249 AC susceptibility 256 Ferrofluids 65 Magnetic phase boundaries 267 AC-magnetic susceptibility 325 Ferromagnetic hysteresis 179 Magnetic properties 20, 160, 212 Accelerator hardware 39 Ferromagnetic resonance 197 Magnetic reorientation phase transition Amorphous alloy 288 Fine particles 241, 256 32 Amorphous ferromagnets 110 FMR 164 Magnetic semiconductor 164 Anisotropy magnetic 260 Free convection 57 Magnetic structure 275 Antiferromagnetism 190 Magnetisation 190 Axisymmetric flow 57 Magnetism 353 Gadolinium 203 Magnetization 49, 241, 319 GaMnAs 164 Band structure 353 Magneto-resistance 6 Giant magneto-impedance effect 288 Barium ferrite 160 Magnetoelastic effects 1, 110 Giant magnetoresistance 25, 219 Bilayer system 138 Magnetooptical characteristics 338 Granular system 295 Magnetooptical constant 338 Chain-like particle agglomerations 197 Magnetoresistance 275, 295 Heat transfer 57 Charge ordering 275 Magnetostriction 83, 260 Hexagonal ferrite (hexaferrite) 131 Chemical coprecipitation 160 Magnetoviscosity 65 High pressure 353 Manganites 275 Cobalt based perovskites 6 Hyperfine fields 83 Coercivity 1, 260 Mechanical alloying 212 Hysteresis effect 6 Melt spinning 179 CoFe/Ru/CoFe 25 Compensation temperature 138 Metastable 249 Inelastic neutron scattering 313 Composites 179 Mg-—Mn ferrites 92 Initial permeability 92, 364 Computer simulation 25 MHD effects 57 Interface coupling 249 Critical exponents 267 Micromagnetic methods 39 Interface stress 203 Crystallization 83 Micromagnetics 12, 39 Interlayer thickness 338 Curie temperature 92 Microstructure 364 Iron sorbitol 256 Minimum energy path 12 Curie transition 203 Mixed-spin Ising model 49 Curvature anisotropy 39 Lagrange—Sylvester polynomial 338 Mn-substitution 131 Large magnetic grains 295 MnZn-ferrites 98 DC magnetization 170 Laser damage 77 Mossbauer effect 241 Dielectric constant 131 Lattice parameters 170 Mossbauer spectrometry 83 Dielectric properties 20 Loss tangent 131 Mossbauer study 123 Disordered interfaces 138 Low temperature sintering 364 Multilayers 219, 249, 338 Double-perovskite 123 Multiple magnetic transitions 190 Electrical conductivity 77 Maghemite 302 Nanocrystalline 319 Electromechanical 77 Magnetic 319 Nanocrystalline materials 83, 203, 260 Electronic transport 295 Magnetic and transport properties 123 Nanowires 219 Energy barriers 12 Magnetic clusters 267 Nb2O; 98 Energy conversion 288 Magnetic domains: Iron on silver 32 Nd—Fe—V-Nb alloys 212 Exchange interactions 92 Magnetic emulsion 302 Neutron diffraction 275 Magnetic force microscopy 32 NiFe | Ferrimagnetic systems 138 Magnetic hysteresis | Ni-—Zn ferrite 20 Ferrites 77 Magnetic liquid 197 Non-Darcy 57 Magnetic loss factor 92 Non-stoichiometric 364 Ferroconvection 65 0304-8853/02/$-see front matter PII: S0304-8853(02)01201-5 374 Subject index to volume 250 Non-uniform grid spacing 39 Rare-earth orthoferrites 325 Terbium—manganese—iron Laves phases Nucleation 179 Reentrant magnetoelastic transition 225 170 Relaxation 319 Thin films 1, 288 Permeability 319 Rotation 65 Transition metal chalcogenides 353 Perpendicular recording 12 Transverse anisotropy 288 Phase diagram 49 Saturation magnetization 92 Transverse crystal field 49 Phase transformation 212 Silicate glasses 160 Transverse Ising model 138 Phase transition 353 Size effects 203 Polarization mechanism 131 Small magnetic impurities 295 Ultrathin magnetic films 32 Porous media 57 Solid solutions 325 Porous medium 65 Sol-gel 160 Vibrating reed 110 Power losses 98 Spin-valve 25 Power-law 57 Spin-wave spectrum 313 Weak ferromagnetism 325 Spontaneous spin reorientation 325 R;Cu,Sn,4 190 Structure 212 X-ray diffraction 123 Random magnets 241 Substitutions 20 XRD data 225 Superparamagnetism 256, 302 Rare earths 20 Rare events 12 Surface effects 83 Y-type hexaferrite 364 Rare-earth alloys 225 Synthetic antiferromagnet 25 Young’s modulus 110

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Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.