Available online at www.sciencedirect.com science @)oinecrs Fi poet and MA wiaterais ELSEVIER Journal of Magnetism and Magnetic Materials 292 (2005) 491-494 www.elsevier.con/locate/jmmm Author index to volume 292 Abo El Ata, A.M., F.M. Reicha and M.M. Ali, Chen, L., see Xia, Z.C Transport and magnetic permeability study of Chen, L., see Zhou, P.H. SrCu Ti, Fe), .Ox7 W-type hexaferrites Chen, S.K., see Chang, C.W. Acher, O., see Schoenstein, F. Chen, W., see Cai, J Adenot, A.-L., see Schoenstein, F. Chen, Z.M., see Gopalan, R Adrian, H., see Oster, J Chiu, C.H., see Chang, C.W Afify, H.H., see Battisha, I.K. Chumlyakov, Y., see Sehitoglu, H Ali, M.M., see Abo El Ata, A.M Chung, Y.R., see Sung, H.H Altounian, Z., see Liu, X.B. Claus, R.O., see Asmatulu, R Amira, A., P. Molinie, M.F. Mosbah and A. Leblanc, Coffey, W.T., see Kalmykov, Y.P AC susceptibility study of fluorine-doped Bi-2212 ceramics Dantas, A.L., see Silva, M.L. Ando, Y., see Peng, DE Deng, L.J., see Zhou, P.H Anton, R., see Wellhéfer, M. Ding, W., see Zhou, Y Appleton, S., see Thompson, S Dong, B., see Xia, Z.€ Asmatulu, R., M.A. Zalich, R.O. Claus and J.S. Riffle, Dong, H.-N., see Wu, S.-Y Synthesis, characterization and targeting of biode- Doyananda, D., see Xia, Z.¢ gradable magnetic nanocomposite particles by ex- Du, H.M., P. Wu, E.Y. Jiang, Z.Q. Li, C. Zhao and ternal magnetic fields H.L. Bai, The influence of experimental procedures Aublanc, P., see Schoenstein, | on the structural and magnetic properties of RI sputtered Fe—N thin films Baenitz, M., see Rabis, A Du, S.W. and R.V. Ramanujan, Mechanical alloying of Bai, H.L., see Du, H.M Fe-Ni based nanostructured magnetic materials Baran. M., see Pekata, M Barentin, V., see Schoenstein, F Edge, A.V.J., see Stewart, G.A Battisha, I.K., H.H. Afify and I1.M. Hamada, Structural Efstathiou, C., see Sehitoglu, H and magnetic susceptibility studies of SiO: Fe,O nano-composites prepared by sol-gel technique Fang, C.H., see Xia, Z.¢ Bernhard, T., see Gruyters, M Fedorenko, A.A., see Pshenichnikov, A. Feng, S.Z., see Sun, H.-Y ‘ai, J., X. Tao, W. Chen, X. Zhao and M. Tan, Density- functional theory calculations on the magneto- Gao, X.-Y., see Zhou, Y optical Kerr effects in Co,TiSn and Co ZrSn Geng, J., see Yan, S apeta, D. and D.K. Sunko, Hysteresis in an Ising Gercsi, Z., see Kane, S.N model with mobile bonds Gippius, A., see Rabis, A arricgo, A.S., see Silva, M.1 Gismelseed, A.M. and A.A. Yousif, Magnetic properties hang, C.W., H.W. Chang, C.H. Chiu, W.C. Chang, of NiAs-type Fe-Sb-Te alloys S.K. Chen and A.C. Sun, Fe-B/FePt-type nanocom- Gopalan, R., D.H. Ping, K. Hono, M.Q. Huang, B.R posite ribbons with high permanent magnetic proper- Smith, Z.M. Chen and B.M. Ma, Investigation on lies structure-magnetic property correlation in melt-spun Chang, H.W., see Chang, C.W Sm(Cov s6Feo.3;Cuo.oaZto.osBo.04)- ribbons Chang, W.C., see Chang, C.W Grandjean, F., R.P. Hermann, G.J. Long and S.R Chen, H*‘% see Xu, S Mishra, A Mossbauer spectral study of some iron Chen, J., see Yan, S nitride-based nanocomposites prepared by ball Chen, J.-A., see Zhou, Y milling doi: 10.1016/S0304-8853(05)00336-7 49? Author index to volume 292 Greig, D., see Spangenberg, M. 241 Li, Z.Q., see Du, H.M. Grin, Y., see Rabis, A. 490 Liang, D.F., see Zhou, P.H. Gruyters, M., T. Bernhard and H. Winter, Structural Liang, J.K., see Luo, J. effects on the magnetic behavior of ultrathin Co films Liu, D.W., see Xia, Z.C on Cu(001) at the T- jump Lau, FS... see Luo, J. Gu, J.J., see Sun, H.-Y Liu, G., see Xia, Z.C. Guan, S. and B.J. Nelson, Electrodeposition of low Lin, L., see Aaa, ZC. residual stress CoNiMnP hard magnetic thin films Liu, L., see Yan, S. for magnetic MEMS actuators Liu, Q.L., see Luo, J. Guo, Y.Q., see Luo, J Liu, S., see Xia, Z.C. Gupta, A., see Kane, $.N Liu, X.B. and Z. Altounian, Magnetocaloric effect in Gupta, A.K., see Singh, H.K. (Er; ,Gd,)Co, pseudobinary compounds Liu, Y., see Xu, S. Hamada, I.M., see Battisha, I.K Long, G.J., see Grandjean, F. Lu, B., see Lu, W. He, Z., see Xu, S Hermann, R.P., see Grandjean, F Lu, W., L. Yang, B. Yan, B. Lu and W.-h. Huang, Bulk Hono, K., see Gopalan, R amorphous and nanocrystalline Feg,Zrs ;Nbs sB; Hopkinson, M., see Spangenberg, M. alloy by rapid consolidation at super-high pressure Hu, H.N., see Sun, H.Y Luo, J., J.K. Liang, Y.Q. Guo, Q.L. Liu, F.S. Liu, Y Huang, M.Q., see Gopalan, R. Zhang, L.T. Yang and G.H. Rao, Crystal structure Huang, W.-h., see Lu, W and magnetic properties of Nd; ,Y\Co¢s6Hf Hutchison, W.D., see Stewart, G.A. compounds Huth, M., see Oster, J Luo, S.J. and K.L. Yao, Electronic band structure and ferromagnetic properties of SeCu,Zn,_ \O; (0<x<1) Inoue, S., see Peng, D.L perov skites Isikawa, Y., see Stewart, G.A. Ma, B.M., see Gopalan, R. Jansen, M., see Zaitsev, D.D. Ma, T., C. Jiang, X. Xu, H. Zhang and H. Xu, The Co- Jia, L.Z., see Sun, H.Y doped Tho. 36Dyo.64Fe2 magnetostrictive alloys with a Jiang, C., see Ma, T wide operating temperature range Jiang, E.Y., see Du, H.M. Maier, H.J., see Sehitoglu, H. Malins, A.E.R., see Spangenberg, M. Kalmykov, Y.P., W.T. Coffey, B. Ouari and S.V. Titov, Mallejac, N., see Schoenstein, F. Damping dependence of the magnetization relaxa- Mao, X.-H., see Zhou, Y. tion time of single-domain ferromagnetic particles Markovich, G., see Meron, T Kane, S.N., A. Gupta, Z. Gercsi, F. Mazaleyrat and Matthew, J.A.D., see Spangenberg, M L.K. Varga, Méssbauer and magnetic studies of Mazaleyrat, F., see Kane, S.N. (Fejoo \CO.o2 NbgBay( X 0,33,50) alloys McCallum, R.W., Determination of the saturation Kazin, P.E., see Zaitsev, D.D magnetization, anisotropy field, mean field interac- Kiang, J. and L. Tong, Modelling of magneto-mechan- tion, and switching field distribution for nanocrystal- ical behaviour of Ni-Mn-Ga single crytals line hard magnets Koehler, T.R., The mean field plus approximation Medvedyeva, L.I., see Zavorotnev, Y.D. Krzymanska, B., see Pekata, M Meron, T., Y. Rosenberg, Y. Lereah and G. Markovich, Kumar, U., K.G. Padmalekha, P.K. Mukhopadhyay, D. Synthesis and assembly of high-quality cobalt ferrite Paudyal and A. Mookerjee, Magnetic transition in nanocrystals prepared by a modified sol-gel techni- NiPt alloy systems: experiment and theory que Mishra, S.R., see Grandjean, F. Leblanc, A., see Amira, A Mitchell, J.F.. see Wu, T. Lee, J.D., Hidden glassy behaviors in an ideal Heisen- Molinie, P., see Amira, A. berg Kagome antiferromagnet Mookerjee, A., see Kumar, U. Lee, W.H., see Sung, H.H Morozova, E. . see Rabis, A. Leithe-Jasper, A., see Rabis, A Morton, S.A., see Spangenberg, M. Lereah, Y., see Meron, T Mosbah, M.F., see Amira, A Li, Y.-T., C.-W. Yan, Z.-Y. Wu and C.-Y. Zhu, Mucha, J., see Pekata, M. Synthesis and ferromagnetically coupled heterodi- Mukhopadhyay, P.K., see Kumar, | nuclear oxamido-bridged copper(II)-oxovanadiu- Murthy, V.R.K., see Ramamanohar Reddy, N. m(IV) complexes Mydosh, J., see Rabis, A. Author index to volume 292 Rosenberg, Y., see Meron, T. Neal, J.R., see Spangenberg, M. Rupprecht, K., see Stewart, G.A Nelson, B.J., see Guan, S. Ni, X.M., see Zhang, D.E. Sankaranarayanan, V., see Rama, N. Nie, X.F., see Sun, H.Y. Schnelle, W., see Rabis, A. Nishimura, K., see Stewart, G.A. Schoenstein, F., P. Aublanc, H. Pages, S. Queste, V Barentin, A.-L. Adenot, N. Mallejac and O. Acher, O’Keefe, E.S., see Thompson, S. Influence of the domain structure on the microwave Oliveira, E.A., see Walton, D. permeability of soft magnetic films and multilayers Oster, J.. L. Wiehl, H. Adrian and M. Huth, Magnetic Seddon, E.A., see Spangenberg, M. and magnetoelastic properties of epitaxial (21 1)- Sehitoglu, H., C. Efstathiou, H.J. Maier and Y oriented RFe, (R= Dy, Tb) thin films Chumlyakov, Magnetization, shape memory and Ouari, B., see Kalmykov, Y.P. hysteresis behavior of single and _ polycrystalline FeNiCoTi Padmalekha, K.G., see Kumar, U. Senthilkumaran, N., see Rabis, A Pages, H., see Schoenstein, F. Shamsuzzoha, M., see Zana, I. Paudyal, D., see Kumar, | Shen, T.-H., see Spangenberg, M Pekata, M., J. Mucha, M. Baran, I. Troyanchuk, B. Shibli, S.M., see Walton, D. Krzymanska and H. Szymezak, Magneto-transport Shirtcliffe, N.J., see Thompson, S in orthocobaltite GdBaCo,Os 5 Silva, M.L., A.L. Dantas and A.S. Carrico, Threshold Peng, D.L., X. Zhao, S. Inoue, Y. Ando and K. for reorientation of the magnetization in F/Af Sumiyama, Magnetic properties of Fe clusters bilayers adhering to single-wall carbon nanotubes Singh, H.K., A.K. Gupta, P.K. Siwach and O.N Perry, C.C., see Thompson, S. Srivastava, Effect of Ba doping on structure and Peter Oepen, H., see Wellhdfer, M. magneto-transport properties of layered manganite Ping, D.H., see Gopalan, R. La, 4Ca; 6. ,\Ba,Mn,O Pshenichnikov, A.F. and A.A. Fedorenko, Chain-like Sivakumar, K.V., see Ramamanohar Reddy, N aggregates in magnetic fluids Siwach, P.K., see Singh, H.K. Piitter, S.. see Wellhdéfer, M. Smith, B.R., see Gopalan, R Spangenberg, M., J.R. Neal, T.-H. Shen, S.A. Morton, Queste, S., see Schoenstein, F. J.G. Tobin, G.D. Waddill, J.A.D. Matthew, D Greig, A.E.R. Malins, E.A. Seddon and M. Hop- Rabis, A., A. Leithe-Jasper, A. Gippius, E. Morozova, kinson, Observation of a low Curie temperature M. Baenitz, W. Schnelle, N. Senthilkumaran, J. ferromagnetic phase of ultrathin epitaxial Fe films on Mydosh, F. Steglich and Y. Grin, Erratum to GaAs(00 1) “Magnetic resonance investigations on NaFe,Sb Srivastava, O.N., see Singh, H.K [Journal of Magnetism and Magnetic Materials 272 Steglich, F., see Rabis, A 276 (2004) 830-832] Stewart, G.A., W.D. Hutchison, A.V.J. Edge, K Rajagopal, E., see Ramamanohar Reddy, N. Rupprecht, G. Wortmann, K. Nishimura and ¥ Isikawa, The magnetic properties of GdNiAl, Rajitha, G., see Ramamanohar Reddy, N. Rama, N., V. Sankaranarayanan and M.S.R. Rao, Sumiyama, K., see Peng, D.L Effect of A-site disorder on the _ percolative Sun, A.C., see Chang, C.W transport of Pry \Ho, Srp ;3MnO; (y=0.0, 0.04, Sun, H.Y., J.J. Gu, H.N. Hu, L.Z. Jia, $.Z. Feng, X.F 0.08 and 0.1) Nie and Y.P. Sun, Influence of cubic crystalline Ramamanohar Reddy, N., M. Venkata Ramana, G anisotropy on the annihilation of Vertical Bloch lines in the walls of hard domains under in-plane Rajitha, E. Rajagopal, K.V. Sivakumar and V.R.K. Murthy, Stress sensitivity of inductance in NiCuZn field ferrites Sun, L., see Zhou, S.M Sun, Y.P., see Sun, H.Y Ramanujan, R.V., see Du, S.W. Rao, B.P. and K.H. Rao, Distribution of In** ions in Sung, H.H., Y.N. Yang, Y.R. Chung and W.H. Lee indium-substituted Ni-Zn-Ti ferrites Magnetic and electrical properties of Ce(Cug sIn, s) Rao, G.H., see Luo, J compound Rao, K.H., see Rao, B.P Sunko, D.K., see Capeta, D Rao, M.S.R., see Rama, N. Szymezak, H., see Pekata, M Reicha, F.M., see Abo El Ata, A.M. Riehemann, W., see Weidenfeller, B Tan, M., see Cai, J. Riffle, J.S., see Asmatulu, R. Tang, C.Q., see Xia, Z.C 494 Author index to volume 292 Tao, X., see Cai, J posites with different ferrite contents synthesized by Thompson, S., N.J. Shirtcliffe, E.S. O'Keefe, S. Apple- sol-gel method ton and C. Perry, Synthesis of SrCo,Ti g, D.D., see Zhang, D.E. Fe O,, through sol-gel auto-ignition and its i... see La, W. characterisation , 1.1. S06 Lito, J. Titov, S.V., see Kalmykov, Y.P. g, Y.N., see Sung, H.H. Tobin, J.G., see Spangenberg, M. Yao, K.L., see Luo, S.J. Tong, L., see Kiang, J Yin, L., see Yan, S. Tretyakov, Y.D., see Zaitsev, D.D. Yousif, A.A., see Gismelseed, A.M. Troyanchuk, I., see Pekata, M Yuan, S.L., see Xia, Z.C. Varga, L.K., see Kane, S.N Zaitsev, D.D., P.E. Kazin, Y.D. Tretyakov and M Vega, M.L.. see Walton, D Jansen, Synthesis and magnetic properties of glass- Venkata Ramana, M., see Ramamanohar Reddy, N. ceramic composites SrFe,»0O)9-SrSiO, Zalich, M.A., see Asmatulu, R. Waddill. G.D., see Spangenberg. M Zana, I., G. Zangari and M. Shamsuzzoha, Enhancing Walton, D., S.M. Shibli, M.L. Vega and E.A. Oliveira, the perpendicular magnetic anisotropy of Co—Pt(P) Magnetic nanoparticle size constraints in ferrone- films by epitaxial electrodeposition onto Cu(1 1 1) matic liquid crystals substrates Weifenborn, M., see Wellhéfer, M Zangari, G., see Zana, I. Weidenfeller, B. and W. Riehemann, Effects of surface Zavorotnev, Y.D. and L.I. Medvedyeva, Latent para- treatments on the hysteresis losses of GO iron silicon magnetism in trigonal compounds Steel Zhang, D.E., X.J. Zhang, X.M. Ni, H.G. Zheng and Wellhéfer, M., M. WeiBenborn, R. Anton, S. Piitter and D.D. Yang, Synthesis and characterization of H. Peter Oepen, Morphology and magnetic proper- NiFe,O, magnetic nanorods via a PEG-assisted ties of ECR ion beam sputtered Co/Pt films route Wiehl, L., see Oster, J Zhang, H., see Ma, T. Winter, H., see Gruyters, M Zhang, J.. see Xu, S. Wortmann, G., see Stewart, G.A Zhang, X.J., see Zhang, D.E. Wu, P., see Du, H.M Zhang, Y., see Luo, J Wu, S.-Y. and H.-N. Dong, Investigations of the Zhang, Z., see Xu, S. electron paramagnetic resonance g factors for the Zhao, C., see Du, H.M. two Er’ centersi n SrLaAlO, Zhao, X., see Peng, D.L. Wu, T. and J.F. Mitchell, Spontaneous sharp metamag- Zhao, X., see Cai, J. netic transition in manganite films: influences of Zhao, X.Q., see Zhou, P.H post-deposition annealing and measurement proto- Zheng, H.G., see Zhang, D.E col Zhong, M., see Xu, S. wu, 2.71... 90 La, Y+1 Zhou, E., see Yan, S. Zhou, P.H., L.J. Deng, J.-L. Xie, D.F. Liang, L. Chen Xia, Z.C., G. Liu, B. Dong, L. Chen, D.W. Liu, C.H and X.Q. Zhao, Nanocrystalline structure and Fang, D. Doyananda, L. Liu, S. Liu, C.Q. Tang and particle size effect on microwave permeability S.L. Yuan, Observation of a near 100% magnetore- of FeNi powders prepared by mechanical sistance in (Lay xBip.>»)o 67Cao.33MnO alloying Xie, J.L., see Zhou, P.H Zhou, S.M. and L. Sun, Temperature dependence of Xu, H., see Ma, T interlayer coupling and magnetization in amor- Xu, S., J. Zhang, M. Zhong, Y. Liu, Z. Zhang, H. Chen phous-FeNiB/Ru multilayers and Z. He, Preparation and magnetic properties for Zhou, Y., X.-H. Mao, J.-A. Chen, W. Ding, X.-Y. Gao supersaturated Fe—C solid solution with nanocrystal- and Z.-M. Zhou, Stress-impedance effects in line structure layered FeSiB/Cu/FeSiB films with a meander line Xu, X., see Ma, T structure Zhou, Y., see Yan, S. Yan, B.. see I u, W Zhou, Z.-M., see Zhou, Y Zhu, C.-Y., see Li, Y.-T. Yan, C.-W., see Li, Y.-T Yan, S., J.G eng, J. Chen, L. Yin, Y. Zhou, L. Liu and Zimmels, Y., Electromagnetic intensive work and energy E. Zhou, A study of NiZnCu-ferrite/SiO, nanocom- variables of finite and composite systems Available online at www.sciencedirect.com ournal of science @oinecrs Fo pene ll and magnetic materials ELSEVIER Journal of Magnetism and Magnetic Materials 292 (2005) 495-496 www.elsevier.com/locate/jmmm Subject index to volume 292 Ab initio calculation 367 DC are discharge evaporation 143 Heat capacity 413 AC susceptibility 186 Density-functional calculation 476 Hematite phase (x-FeO,) (and/or -Fe,O;) Activation energy and initial magnetic Dipolar interactions 332 440 permeability 17 Domain configuration 201 Heterodinuclear complexes 418 Alloy 325 Domain refinement 210 Heusler alloy 476 Amorphous magnetic materials 286 Domain wall 281 Hexagonal crystals 426 Anisotropy 89, 281] Doping 483 High coercivity materials 135, 266 Anisotropy effects 453 DyFe, 164 Hysteresis 260 Antiferromagnetic ordering 413 Hysteresis losses 210 ECR ion beam sputter deposition 345 Hysteresis measurements 447 Ball milling 215 Electrical conductivity 17 Bi-2212 186 Electrical steel 210 Initial permeability 159 Biodegradable 108 Electrodeposition 49, 266 Intensive variables 433 Blocking 310 Electromagnetic 433 Interface coupling 453 Bulk amorphous and nanocrystalline alloy — Electron paramagnetic resonance (EPR) Interlayer coupling 65 299 248 lon scattering 192 Electronic band structure 367 lonic distribution 44 , Energy 433 Ising model 359 Carbon nanotube 143 ‘ Energy dissipation 89 Ce(Cuy sIn; 5) 413 Chains 332 Epitaxial Fe/GaAs 241 Kerr microscope 201 C : harge carrier mobility | 7 Equilibrium magnetization 332 Kinetic £g lass 359 ; C ‘lu4 ster < ana« lvsis e 332~ EErx’c han2g4e8- coupling 120 Kramers’ escape rate theory » 372 ( ‘MR 25 mee Co ecietineiion 317 External magnetic field and targeting Langmuir-Blodgett |] CC o‘boabal<l tti tef err3i8t5ec 11 Ie LLaatseenrt scprairbainmga. gn21e0t ism 426 Coercive force 22 Faceted sapphire 164 Lattice constant 44 Conveying 150 Fe clusters 143 Lattice dynamics 37 Colloidal cieiaaiiiatnien Sit Fe-C alloy 126 Layered FeSiB/Cu/FeSiB films 255 Colossal magnetoresistance 385, 483 Fe-N thin films 227 Layered manganites 483 Combustion synthesis 100 FePt 120 Complex permeability 201 FePtB 120 Maghemite phase (7-Fe,O;) 440 Composite system 433 Ferrites 44, 100 Magnetic anisotropy 227, 266 Computer modeling | Ferromagnetic film 20] Magnetic field 426 Constitutive equation 394 Ferromagnetic properties 367 Magnetic fluids 332 Copper(II) 418 Ferromagnetic shape memory alloy Magnetic hysteresis 359 Co-Pt alloys 266 394 Magnetic linear dichroism 241 Core level photoelectrons 241 Ferromagnetic spin coupling 418 Magnetic materials 126, 286 Critical in-plane field 281 Ferronematics 310 Magnetic microsphere 108 Critical state model 186 Fluorine doping 186 Magnetic multilayer 65 Crystal-field and spin-Hamiltonians Magnetic nanocomposites 215 248 Glass-ceramics 59 Magnetic nanocrystals 11] ‘ubic and orthorhombic anisotropy Magnetic nanoparticles 215 372 Hard domain 281 Magnetic properties 37, 59, 79, 143, 304, ‘urie temperature 44, 192, 241 Hard magnetic materials 49 299 doi: 10.1016/S0304-8853(05)00337-9 496 Subject index to volume 292 Magnetic reorientation 453 Nickel ferrite 79 Spin dynamics 462 Magnetic shape memory 89 NiCuZn ferrites 159 Spin glasses 462 Magnetic transition 83 Ni-Mn-Ga 394 Spin reorientation 178 Magnetic ultrathin films 192, 345 NiPt 234 Sr-ferrite 59 Magnetically ordered materials 178 NiZnCu-ferrite 304 SrLaAlO, 248 Magnetization 44, 164, 426 NMR spectroscopy 490 Stress sensitivity 159 Magnetization curves 135 NQR spectroscopy 490 Stress-impedance 255 Magneto-mechanical behaviour 394 Structural relaxation 447 Magneto-optical Kerr effect 476 Oxamido bridge 418 Super-high-pressure consolidation 299 Magnetocaloric 83 Oxidation-resistance 143 Surface defects 210 Magnetoresistance 260 Oxide thin film 25 Surface mounting devices 159 Magnetostriction 164, 3 Oxovanadium(IV) 418 Susceptibility 413 Magnetron sputtering 2° Susceptibility 77 440 Manganites 25, 468 Percolation 468 Synthesis 108 Meander line structure 2 Permanent magnets 120, 135 Mechanical alloying 12 Perpendicular magnetic anisotropy 345 TbFe, 164 Melt-spinning 120, 150 Phase diagram 234 TEM 440 MEMS 49 Phase evolution 227 Temperature 65 Metamagnetic transition 25 Phase separation 25 Ternary alloys 37 Micromagnetics | Phase transition 462 Thermal annealing 447 Microstructure 150 Polaron 385 Thermal conductivity 385 Microwave 100 Thermoelectric power 17 Microwave permeability 325 Mixed magnetic state 426 Rare earth 83 Thin film growth 345 Transport 260, 468 Molecular beam epitaxy 164, 192 Rare-earth permanent magnet 150 Mossbauer of FeSbTe 37 Rare-earth ternary compounds 72 Twin-boundary orientation 394 Mossbauer spectra 304 Rare-earth transition-metal alloys 317 Two-step MA 325 Mossbauer spectroscopy 215, 447 Relaxation time 372 Mossbauer spectroscopy-RE compounds Residual stress 49 Ultra thin magnetic films 241 Resistivity 44, 413 Vertical Bloch line 281 Nano-particles 100 Silica gel 440 Nanocomposites 120, 304 Single-domain particles 372 Work 433 Nanocrystalline 325 Site occupancy 44 Nanocrystalline materials 135 Skutterudites 490 Nanoparticles 79 Sol-gel 11, 100, 304 X-ray diffraction 483 Nanorods 79 Sound velocity and attenuation 234 X-ray scattering 178 Nanostructural system 126 Specific heat 72 XRD 440 s a e