Verfügbarkeit: Ultrathin magnetic structures

Ultrathin magnetic structures: 2 Measurement techniques and novel magnetic properties

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Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2005
Ausgabe:	2. print.
Schlagworte:	Magnetschicht
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIV, 350 S. Ill., graph. Darst.
ISBN:	3540219560 9783540219569

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MARC


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Datensatz im Suchindex

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adam_text	Contents 1. Magnetic Metal Films on Semiconductor Substrates G.A. Prinz (With 35 Figures) ....................... 1 1.1 3d Transition Metals on Zincblende Structures ............ З 1.1.1 bec Fe ................................. 5 1.1.2 bec Co ................................. 24 1.1.3 τ -MnAl ................................. 33 1.2 3d Transition Metals on the Diamond Structure ........... 33 1.2.1 fee Ni on С .............................. 34 1.2.2 Cu on Si ................................ 34 1.2.3 Fe on Ge ............................... 35 1.3 Rare Earths ................................. 35 1.4 Applications ................................. 36 1.4.1 Non- Volatile Magnetic Memory .................. 36 1.4.2 Microwave Devices ......................... 37 1.4.3 Spin Injection Devices ....................... 39 Appendix ..................................... 42 References ..................................... 42 2. Magnetic Coupling and Magnetoresistance 2.1 Theory of Exchange Coupling in Magnetic Multilayers K.B. Hathaway (With 19 Figures) .................... 45 2.1.1 RKKY-Like Models ......................... 46 2.1.2 Non-Perturbation Calculations for Strongly Hybridized Systems ................... 51 2.1.3 Oscillation of the Exchange Coupling with Interlayer Thickness, d ......................... 60 2.1.4 Non-Oscillatory Exchange Terms and Anderson-Like Models ....................... 62 2.1.5 Non-Heisenberg Exchange ..................... 69 2.1.6 Band Structure Results ....................... 72 2.1.7 Temperature Dependence of Exchange Coupling ........ 78 2.1.8 Conclusions .............................. 81 2.2 Interlayer Coupling and Magnetoresistance in Multilayers A. Fert and P. Bruno (With 15 Figures) ................. 82 χ Contents 2.2.1 Interlayer Coupling. Review of Experiments........... 82 2.2.2 Interlayer Exchange Coupling. Theoretical Models....... 88 2.2.3 Magnetoresistance: A Survey.................... 97 2.2.4 Theoretical Models of the Magnetoresistance.......... 102 2.2.5 Review and Discussion of Magnetoresistance Data....... 106 2.3 Investigation of Exchange Coupled Magnetic Layers by Scanning Electron Microscopy with Polarization Analysis (SEMPA) D.T. Pierce, J. Unguris, and R.J. Celotta (With 14 Figures) ..... 117 2.3.1 The SEMPA Technique ....................... 118 2.3.2 SEMPA Measurements of Exchange Coupled Multilayers . . 132 2.4 Giant Magnetoresistance and Oscillatory Interlayer Coupling in Polycrystalline Transition Metal Multilayers S.S.P. Parkin (With 29 Figures) ...................... 148 2.4.1 Preparation of Multilayers ..................... 150 2.4.2 Antiferromagnetic Coupling and Giant Magnetoresistance in Fe/Cr Multilayers ......................... 152 2.4.3 Magnetoresistance of Ferromagnetic Metals ........... 155 2.4.4 Oscillatory Interlayer Coupling .................. 159 2.4.5 Giant Magnetoresistance of Cu-Based Multilayers ....... 167 2.4.6 Low Field Giant Magnetoresistance Structures ......... 174 2.4.7 Interfacial Origin of Giant Magnetoresistance.......... 175 2.4.8 Giant Magnetoresistance in Systems Other than Multilayers ........................... 180 2.4.9 Conclusions ............................. . 185 References ..................................... 186 3. Radio Frequency Techniques 3.1 Ferromagnetic Resonance in Ultrathin Film Structures B. Heinrich (With 14 Figures) ....................... 195 3.1.1 Magnetic Properties of Ultrathin Magnetic Layers and the Landau-Lifshitz Equations of Motion .............. 196 3.1.2 FMR Technique and Experimental Procedures ......... 204 3.1.3 Measurements of Magnetic Anisotropies ............. 209 3.1.4 Exchange-Coupled Ferromagnetic Layers ............ 216 3.1.5 Conclusion .............................. 222 3.2 Light Scattering from Ultrathin Magnetic Layers and Bilayers J.F. Cochran (With 8 Figures) ....................... 222 3.2.1 Introduction .............................. 223 3.2.2 The Light Scattering Experiment ................. 224 3.2.3 Light Scattering for a Simple Model ............... 227 3.2.4 The Intensity of the Scattered Light ................ 234 3.2.5 Magnetic Damping .......................... 247 3.2.6 Magnetic Bilayers .......................... 249 Contents XI 3.2.7 Examples ............................... 253 3.2.8 Conclusions .............................. 257 Appendix ..................................... 257 3.3 Brillouin Light Scattering in Magnetic Superlattices B. Hillebrands and G. Güntherodt (With 12 Figures) ......... 258 3.3.1 Introduction .............................. 258 3.3.2 Theoretical Background ....................... 259 3.3.3 Dipolar Coupled Collective Spin Waves ............. 262 3.3.4 Interlayer-Exchange Coupled Collective Spin Waves ...... 267 3.3.5 Superlattices with Spatial Inhomogeneities ............ 274 3.3.6 Conclusion and Outlook ...................... 277 3.4 Nuclear Magnetic Resonance in Thin Films and Multilayers WJ.M. de Jonge, H.A.M, de Gronckel, and K. Kopinga (With 7 Figures)............................... 279 3.4.1 Basic Principles............................ 279 3.4.2 Experimental Results of NMR on Multilayers and Films . . . 283 3.4.3 Conclusion .............................. 289 References ..................................... 290 4. Magneto-Optical Effects in I Itrathin Magnetic Structures S.D. Bader and J.L. Erskine (With 10 Figures) ............. 297 4.1 Microscopic Basis .............................. 297 4.2 Macroscopic Formulas ........................... 299 4.3 Instrumentation, Techniques, and Sensitivity .............. 303 4.4 Thin Film Phenomena and Applications ................ 306 4.4.1 Monolayer Magnetism ....................... 306 4.4.2 Thin Film Anisotropy ........................ 309 4.4.3 Critical Phenomena ......................... 314 4.4.4 Coupled Layers ............................ 317 4.4.5 Magneto-Optical Media ....................... 319 4.4.6 Magnetic Circular-Dichroism .................... 320 4.5 Outlook .................................... 322 References ..................................... 323 5. Mössbauer Spectroscopy as a Means of Characterizing Surfaces, Thin Films, and Superlattices J.C. Walker (With 8 Figures) ....................... 327 5.1 Elements of Mössbauer Spectroscopy .................. 329 5.2 Mössbauer Spectrometers ......................... 331 5.3 Information Obtainable from Mössbauer Spectra ........... 333 5.4 Isomer Shift ................................. 334 5.5 Conversion Electron Mössbauer Spectroscopy (CEMS). ....... 334 5.6 Magnetic Relaxation in Thin Films and Superlattices ......... 336 XII Contents 5.7 Examples of Mössbauer Spectroscopy Applied to the Study of Magnetic Thin Films, Surfaces, and Superlattices .......... 337 5.8 Conclusions ................................. 342 References ..................................... 343 Subject Index ................................... 345
adam_txt	Contents 1. Magnetic Metal Films on Semiconductor Substrates G.A. Prinz (With 35 Figures) . 1 1.1 3d Transition Metals on Zincblende Structures . З 1.1.1 bec Fe . 5 1.1.2 bec Co . 24 1.1.3 τ -MnAl . 33 1.2 3d Transition Metals on the Diamond Structure . 33 1.2.1 fee Ni on С . 34 1.2.2 Cu on Si . 34 1.2.3 Fe on Ge . 35 1.3 Rare Earths . 35 1.4 Applications . 36 1.4.1 Non- Volatile Magnetic Memory . 36 1.4.2 Microwave Devices . 37 1.4.3 Spin Injection Devices . 39 Appendix . 42 References . 42 2. Magnetic Coupling and Magnetoresistance 2.1 Theory of Exchange Coupling in Magnetic Multilayers K.B. Hathaway (With 19 Figures) . 45 2.1.1 RKKY-Like Models . 46 2.1.2 Non-Perturbation Calculations for Strongly Hybridized Systems . 51 2.1.3 Oscillation of the Exchange Coupling with Interlayer Thickness, d . 60 2.1.4 Non-Oscillatory Exchange Terms and Anderson-Like Models . 62 2.1.5 Non-Heisenberg Exchange . 69 2.1.6 Band Structure Results . 72 2.1.7 Temperature Dependence of Exchange Coupling . 78 2.1.8 Conclusions . 81 2.2 Interlayer Coupling and Magnetoresistance in Multilayers A. Fert and P. Bruno (With 15 Figures) . 82 χ Contents 2.2.1 Interlayer Coupling. Review of Experiments. 82 2.2.2 Interlayer Exchange Coupling. Theoretical Models. 88 2.2.3 Magnetoresistance: A Survey. 97 2.2.4 Theoretical Models of the Magnetoresistance. 102 2.2.5 Review and Discussion of Magnetoresistance Data. 106 2.3 Investigation of Exchange Coupled Magnetic Layers by Scanning Electron Microscopy with Polarization Analysis (SEMPA) D.T. Pierce, J. Unguris, and R.J. Celotta (With 14 Figures) . 117 2.3.1 The SEMPA Technique . 118 2.3.2 SEMPA Measurements of Exchange Coupled Multilayers . . 132 2.4 Giant Magnetoresistance and Oscillatory Interlayer Coupling in Polycrystalline Transition Metal Multilayers S.S.P. Parkin (With 29 Figures) . 148 2.4.1 Preparation of Multilayers . 150 2.4.2 Antiferromagnetic Coupling and Giant Magnetoresistance in Fe/Cr Multilayers . 152 2.4.3 Magnetoresistance of Ferromagnetic Metals . 155 2.4.4 Oscillatory Interlayer Coupling . 159 2.4.5 Giant Magnetoresistance of Cu-Based Multilayers . 167 2.4.6 Low Field Giant Magnetoresistance Structures . 174 2.4.7 Interfacial Origin of Giant Magnetoresistance. 175 2.4.8 Giant Magnetoresistance in Systems Other than Multilayers . 180 2.4.9 Conclusions . . 185 References . 186 3. Radio Frequency Techniques 3.1 Ferromagnetic Resonance in Ultrathin Film Structures B. Heinrich (With 14 Figures) . 195 3.1.1 Magnetic Properties of Ultrathin Magnetic Layers and the Landau-Lifshitz Equations of Motion . 196 3.1.2 FMR Technique and Experimental Procedures . 204 3.1.3 Measurements of Magnetic Anisotropies . 209 3.1.4 Exchange-Coupled Ferromagnetic Layers . 216 3.1.5 Conclusion . 222 3.2 Light Scattering from Ultrathin Magnetic Layers and Bilayers J.F. Cochran (With 8 Figures) . 222 3.2.1 Introduction . 223 3.2.2 The Light Scattering Experiment . 224 3.2.3 Light Scattering for a Simple Model . 227 3.2.4 The Intensity of the Scattered Light . 234 3.2.5 Magnetic Damping . 247 3.2.6 Magnetic Bilayers . 249 Contents XI 3.2.7 Examples . 253 3.2.8 Conclusions . 257 Appendix . 257 3.3 Brillouin Light Scattering in Magnetic Superlattices B. Hillebrands and G. Güntherodt (With 12 Figures) . 258 3.3.1 Introduction . 258 3.3.2 Theoretical Background . 259 3.3.3 Dipolar Coupled Collective Spin Waves . 262 3.3.4 Interlayer-Exchange Coupled Collective Spin Waves . 267 3.3.5 Superlattices with Spatial Inhomogeneities . 274 3.3.6 Conclusion and Outlook . 277 3.4 Nuclear Magnetic Resonance in Thin Films and Multilayers WJ.M. de Jonge, H.A.M, de Gronckel, and K. Kopinga (With 7 Figures). 279 3.4.1 Basic Principles. 279 3.4.2 Experimental Results of NMR on Multilayers and Films . . . 283 3.4.3 Conclusion . 289 References . 290 4. Magneto-Optical Effects in I Itrathin Magnetic Structures S.D. Bader and J.L. Erskine (With 10 Figures) . 297 4.1 Microscopic Basis . 297 4.2 Macroscopic Formulas . 299 4.3 Instrumentation, Techniques, and Sensitivity . 303 4.4 Thin Film Phenomena and Applications . 306 4.4.1 Monolayer Magnetism . 306 4.4.2 Thin Film Anisotropy . 309 4.4.3 Critical Phenomena . 314 4.4.4 Coupled Layers . 317 4.4.5 Magneto-Optical Media . 319 4.4.6 Magnetic Circular-Dichroism . 320 4.5 Outlook . 322 References . 323 5. Mössbauer Spectroscopy as a Means of Characterizing Surfaces, Thin Films, and Superlattices J.C. Walker (With 8 Figures) . 327 5.1 Elements of Mössbauer Spectroscopy . 329 5.2 Mössbauer Spectrometers . 331 5.3 Information Obtainable from Mössbauer Spectra . 333 5.4 Isomer Shift . 334 5.5 Conversion Electron Mössbauer Spectroscopy (CEMS). . 334 5.6 Magnetic Relaxation in Thin Films and Superlattices . 336 XII Contents 5.7 Examples of Mössbauer Spectroscopy Applied to the Study of Magnetic Thin Films, Surfaces, and Superlattices . 337 5.8 Conclusions . 342 References . 343 Subject Index . 345
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spelling	Ultrathin magnetic structures 2 Measurement techniques and novel magnetic properties J. A. C. Bland ... (eds.) 2. print. Berlin [u.a.] Springer 2005 XIV, 350 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Magnetschicht (DE-588)4262876-3 gnd rswk-swf Magnetschicht (DE-588)4262876-3 s DE-604 Bland, J. Anthony C. 1958-2007 Sonstige (DE-588)136031463 oth (DE-604)BV009757277 2 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014723231&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Ultrathin magnetic structures Magnetschicht (DE-588)4262876-3 gnd
subject_GND	(DE-588)4262876-3
title	Ultrathin magnetic structures
title_auth	Ultrathin magnetic structures
title_exact_search	Ultrathin magnetic structures
title_exact_search_txtP	Ultrathin magnetic structures
title_full	Ultrathin magnetic structures 2 Measurement techniques and novel magnetic properties J. A. C. Bland ... (eds.)
title_fullStr	Ultrathin magnetic structures 2 Measurement techniques and novel magnetic properties J. A. C. Bland ... (eds.)
title_full_unstemmed	Ultrathin magnetic structures 2 Measurement techniques and novel magnetic properties J. A. C. Bland ... (eds.)
title_short	Ultrathin magnetic structures
title_sort	ultrathin magnetic structures measurement techniques and novel magnetic properties
topic	Magnetschicht (DE-588)4262876-3 gnd
topic_facet	Magnetschicht
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014723231&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
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