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Subject index to volume 149
•ii ELSEVIER
Journal of Magnetism and Magnetic Materials 149 (1995) 431-432
Jeurnal of magnetism and magnetic materials
Subject index to volume 149 Abrasives behavior 181 Actinides 380 Agglomeration 47 Aggregation 192 Amorphous systems 331 Anisotropy 373 - magnetocrystalline 273 Antiferromagnetism 265, 273, 287, 409 Asymmetric stress 26, 165 Axisymmetric flow 101, 162 -
Birefringe 72 Bistability 119 Boiling 125 Bubbles 104 Chain formation 64 Chaos 132 Charge mechanism 19 Circular cylinder 108 Cobalt ferrite particles 14, 67 Coercivity 260, 279, 331 Cole-Davidson plot 79 Commercial applications
174
Compensation point 260 Competing interactions 87 Composites 53 Crystal structure 380 Dampers 174 Deformation 104 Devices magnetic recording 387 Diffusion I I l Dipolar interactions L246 Disordered systems 297 Distribution 29 Domain - structure 260, 331,418 - walls 260, 331 Droplet growth 87 -
Electromagnetic induction 84 Energy conve~ion 125
Energy dissipation 104 EPR 10 Exchange - interlayer 409 Exchange coupling - oscillations L251
Maghemite 6 Magnetic characteristics 192 Magnetic field 22 Magnetic fluid coating 122 Magnetic fluid grinding 18 l, 185, 188 Magnetic fluids 14, 22, 72, 93, 101, 104, 108, I l l , 125, L239, 373 Magnetic moments - calculated 341 Magnetic ordering L246, 380 Magnetic phase diagrams 269 Magnetic recording 387 Magnetic relaxation time 26 Magnetic structure 265, 287 Magnetite 6 Magnetization 72, 260, 318, 331,363, 418 - decay 79 - demagnetization 279 - processes 279, 287, 345 - saturation 358 - time dependent 42, 79 Magneto-optics L239, 373 Magnetoresistance 418 - giant L255
Ferrofluids 34, 53, 174 Ferrohydrodynamics 151, 165 Ferromagnetism 341 Ferromagnets 297, 345 Fine particles L239, 279, 398 Fins 122 Flow 104 Flow curve 22 Flow visualization 125 Forced diffusion 119 Free convection I 11 Garnets 260, 418 Harmonic oscillator model Heat transfer 119, 122 Hexagonal order 87
29
High-gradient magnetic separation Hysteresis loops 279, 331
116
Kerr effect 418
Magnetorheology 53 Magnetostriction 331 Magnetotactic bacteria 279 Mass transfer I 1 l Microdrop 143 Microgravity 155 Micromagnetism 345 Microstrncture 358, 409 Molecular field theory 363 Monte Carlo simulation 341 MSssbauer spectroscopy 287 Multi-axial anisotropy 14 Multilayers L251 - metallic L255 Multiphase flow 125
Labyrinthine patterns 93 Large wave number convection 119 Liquid film 162 Loudspeaker 174
Nanoparticles 6, 67 Neutron diffraction 265, 273, 287, 380 Nonlinear surface response 38
In situ observation 181 Instability in field 93, 158 Interaction 22, 60 Interface dynamics 87 Interface effects L251 Internal polishing 185, 188 Interstitial nitrides 358 lonic strength effect 19 Ising model 269, 297 Isothermal convection 116
0304-8853/95/$09.50 © 1995 Elsevier Science B.V. All rights reserved
432
Subject index to volume 149
Normal magnetic field 38 Numerical simulation 143
electromagnetic 64 magnetic 19, 34 Rotating field 143 Rotational friction 26 -
Ostwald ripening 87 Particle size 1, 72 Particles 60 Pattern formation 93, 158 Periodic boundary conditions Permeable boundaries 148 Phase behavior 47 Phase shifts L251 Phase transitions 1,363 Platelets 192 Polydispersity 87 Porous medium 97, 137 Pumping 165
155
Raleigh-B6nard convection 148 Rare earth-transition metal compounds 287 Rare earths - compounds 265, 273, 363 Re-entrant ferromagnetism 269 Relaxation L239 Brownian 42 - N6el 42 Renormalization group method 15 ! Resonance anisotropic 64 -
-
- dynamic 297 initial 60 Suspension of HTSC particles
-
Seals 101, 174 SEM 10 Separation I 11 SI 57 Size sorting 1 Small angle neutron scattering 47 Small angle X-ray scattering 67 Smectics 93 Spin coating 162 Spin glass 269 Spin velocity 165 Spin waves 265 Squeeze films 97 Stability 125 Stepper motor 174 Stochastic model 151 Stress tensor 50 Superconductors 345 Superlattices L246 Superparamagnetic 60 Surface waves 132 Susceptibility 265, 273, 318, 363 - complex 79 - complex ac 29
-
50
Temperature effects 34 Texture 318 Thermodiffusion 111 Thermohaline convection 137 Thermomagnetic convection 148, 155 Thickness dependence - oscillatory L25 I Thin films 260, 358, 387, 418 - epitaxial L255 - multilayer 409, 418 Torque 165 Tube 185, 188 Ultrahigh vacuum method Undulation 93 Units 57 Unsteady flow 108 Vertical vibration 38 Viscosity 50, 318 effective 165 Vorticity 22 -
XRD
10
Yield stress 22
L255
Journal of Magnetism and Magnetic Materials 149 (1995) 431-432
Jeurnal of magnetism and magnetic materials
Subject index to volume 149 Abrasives behavior 181 Actinides 380 Agglomeration 47 Aggregation 192 Amorphous systems 331 Anisotropy 373 - magnetocrystalline 273 Antiferromagnetism 265, 273, 287, 409 Asymmetric stress 26, 165 Axisymmetric flow 101, 162 -
Birefringe 72 Bistability 119 Boiling 125 Bubbles 104 Chain formation 64 Chaos 132 Charge mechanism 19 Circular cylinder 108 Cobalt ferrite particles 14, 67 Coercivity 260, 279, 331 Cole-Davidson plot 79 Commercial applications
174
Compensation point 260 Competing interactions 87 Composites 53 Crystal structure 380 Dampers 174 Deformation 104 Devices magnetic recording 387 Diffusion I I l Dipolar interactions L246 Disordered systems 297 Distribution 29 Domain - structure 260, 331,418 - walls 260, 331 Droplet growth 87 -
Electromagnetic induction 84 Energy conve~ion 125
Energy dissipation 104 EPR 10 Exchange - interlayer 409 Exchange coupling - oscillations L251
Maghemite 6 Magnetic characteristics 192 Magnetic field 22 Magnetic fluid coating 122 Magnetic fluid grinding 18 l, 185, 188 Magnetic fluids 14, 22, 72, 93, 101, 104, 108, I l l , 125, L239, 373 Magnetic moments - calculated 341 Magnetic ordering L246, 380 Magnetic phase diagrams 269 Magnetic recording 387 Magnetic relaxation time 26 Magnetic structure 265, 287 Magnetite 6 Magnetization 72, 260, 318, 331,363, 418 - decay 79 - demagnetization 279 - processes 279, 287, 345 - saturation 358 - time dependent 42, 79 Magneto-optics L239, 373 Magnetoresistance 418 - giant L255
Ferrofluids 34, 53, 174 Ferrohydrodynamics 151, 165 Ferromagnetism 341 Ferromagnets 297, 345 Fine particles L239, 279, 398 Fins 122 Flow 104 Flow curve 22 Flow visualization 125 Forced diffusion 119 Free convection I 11 Garnets 260, 418 Harmonic oscillator model Heat transfer 119, 122 Hexagonal order 87
29
High-gradient magnetic separation Hysteresis loops 279, 331
116
Kerr effect 418
Magnetorheology 53 Magnetostriction 331 Magnetotactic bacteria 279 Mass transfer I 1 l Microdrop 143 Microgravity 155 Micromagnetism 345 Microstrncture 358, 409 Molecular field theory 363 Monte Carlo simulation 341 MSssbauer spectroscopy 287 Multi-axial anisotropy 14 Multilayers L251 - metallic L255 Multiphase flow 125
Labyrinthine patterns 93 Large wave number convection 119 Liquid film 162 Loudspeaker 174
Nanoparticles 6, 67 Neutron diffraction 265, 273, 287, 380 Nonlinear surface response 38
In situ observation 181 Instability in field 93, 158 Interaction 22, 60 Interface dynamics 87 Interface effects L251 Internal polishing 185, 188 Interstitial nitrides 358 lonic strength effect 19 Ising model 269, 297 Isothermal convection 116
0304-8853/95/$09.50 © 1995 Elsevier Science B.V. All rights reserved
432
Subject index to volume 149
Normal magnetic field 38 Numerical simulation 143
electromagnetic 64 magnetic 19, 34 Rotating field 143 Rotational friction 26 -
Ostwald ripening 87 Particle size 1, 72 Particles 60 Pattern formation 93, 158 Periodic boundary conditions Permeable boundaries 148 Phase behavior 47 Phase shifts L251 Phase transitions 1,363 Platelets 192 Polydispersity 87 Porous medium 97, 137 Pumping 165
155
Raleigh-B6nard convection 148 Rare earth-transition metal compounds 287 Rare earths - compounds 265, 273, 363 Re-entrant ferromagnetism 269 Relaxation L239 Brownian 42 - N6el 42 Renormalization group method 15 ! Resonance anisotropic 64 -
-
- dynamic 297 initial 60 Suspension of HTSC particles
-
Seals 101, 174 SEM 10 Separation I 11 SI 57 Size sorting 1 Small angle neutron scattering 47 Small angle X-ray scattering 67 Smectics 93 Spin coating 162 Spin glass 269 Spin velocity 165 Spin waves 265 Squeeze films 97 Stability 125 Stepper motor 174 Stochastic model 151 Stress tensor 50 Superconductors 345 Superlattices L246 Superparamagnetic 60 Surface waves 132 Susceptibility 265, 273, 318, 363 - complex 79 - complex ac 29
-
50
Temperature effects 34 Texture 318 Thermodiffusion 111 Thermohaline convection 137 Thermomagnetic convection 148, 155 Thickness dependence - oscillatory L25 I Thin films 260, 358, 387, 418 - epitaxial L255 - multilayer 409, 418 Torque 165 Tube 185, 188 Ultrahigh vacuum method Undulation 93 Units 57 Unsteady flow 108 Vertical vibration 38 Viscosity 50, 318 effective 165 Vorticity 22 -
XRD
10
Yield stress 22
L255