Verfügbarkeit: Fundamentals of magnetism

Fundamentals of magnetism:

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Bibliographische Detailangaben
1. Verfasser:	Getzlaff, Mathias (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u. a.] Springer 2008
Schlagworte:	Champs magnétiques Magnétisme Magnétisme - Modèles mathématiques Physique nucléaire Mathematisches Modell Magnetic fields Magnetism Magnetism > Mathematical models Nuclear physics Magnetismus
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XIV, 387 S. Ill., graph. Darst.
ISBN:	3540311505 9783540311508

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Datensatz im Suchindex

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adam_text	Contents 1 Introduction ............................................... 1 1.1 Fundamental Terms ...................................... 1 1.2 Classification of Magnetic Material ........................ 3 1.3 Bohr van Leeuwen Theorem .............................. 6 2 Magnetism of Atoms ...................................... 7 2.1 Atoms in a Magnetic Field ................................ 7 2.2 Atomic Diamagnetism ................................... 9 2.3 Atomic Paramagnetism .................................. 10 2.4 Hund s Rules for the Ground State of Atoms ................ 21 Problems ................................................... 24 3 Solid State Magnetism ..................................... 25 3.1 Model of Free Electrons .................................. 25 3.2 Pauli Paramagnetisni.................................... 29 3.3 Spontaneously Spin Split States ........................... 30 3.4 Magnetism of 3d Transition Metals and Alloys .............. 36 Problems ................................................... 39 4 Magnetic Interactions ..................................... 41 4.1 Magnetic Dipole Interaction .............................. 41 4.2 Direct Exchange ......................................... 42 4.3 Indirect Exchange ....................................... 43 5 Collective Magnetism ...................................... 47 5.1 Ferromagnetism ......................................... 48 5.2 Antiferromagnetism ...................................... 55 5.3 Ferrimagnetism ......................................... 62 5.4 Helical Order ........................................... 65 5.5 Spin Glasses ............................................ 67 Problems ................................................... 68 XII Contents 6 Broken Symmetry ......................................... 71 6.1 Breaking of the Symmetry ................................ 71 6.2 Different Models of Magnetic Behavior ..................... 73 6.3 Consequences ........................................... 77 6.4 Phase Transitions ....................................... 78 6.5 Magnetic Excitations .................................... 83 7 Magnetic Anisotropy Effects ............................... 89 7.1 Overview of Magnetic Anisotropies ........................ 89 7.2 Magneto Crystalline Anisotropy ........................... 90 7.3 Shape Anisotropy .......................................102 7.4 Induced Magnetic Anisotropy .............................105 7.5 Stress Anisotropy (Magnetostriction) ......................108 7.6 Magnetic Surface and Interface Anisotropies ................112 Problems ...................................................114 8 Magnetic Domain Structures ..............................117 8.1 Magnetic Domains .......................................117 8.2 Domain Walls ...........................................120 8.3 Domain Wall Width .....................................121 8.4 Closure Domains ........................................124 9 Magnetization Dynamics ..................................133 9.1 Magnetic After-Effect ....................................133 9.2 Influence of High-Frequent Magnetic Fields .................139 9.3 Damping Processes ......................................141 9.4 Ferromagnetic Resonance .................................145 Problems ...................................................149 10 Magnetism in Reduced Dimensions - Atoms ...............151 10.1 Single Atoms on a Surface ................................152 10.2 Quantum Mirage ........................................156 10.3 Reversal of the Spin in a Single Atom ......................159 10.4 Influence of the Substrate ................................161 11 Magnetism in Reduced Dimensions - Clusters .............165 11.1 Every Atom Counts ....................................165 11.2 Influence of the Geometrical Arrangement and Surface Symmetry ...................................168 11.3 Clusters at Step Edges ...................................172 11.4 Comparison Between Free and Supported Clusters ...........174 Contents XIII 12 Magnetism in Reduced Dimensions - Nanoparticles .......175 12.1 Magnetic Domains of Nanoparticles ........................175 12.2 Size Dependence of Magnetic Domain Formation ............180 12.3 Ring Structures .........................................185 12.4 Magnetic Vortices .......................................187 12.5 Single Domain Particles ..................................190 12.6 Superparamagnetism of Nanoparticles ......................195 12.7 Magnetism of Free Nanoparticles ..........................199 12.8 Nanoparticles in Contact with Surfaces .....................203 12.9 Wet Chemically Prepared Nanoparticles ....................207 Problems ...................................................210 13 Magnetism in Reduced Dimensions - Nanoscaled Wires ... 211 13.1 Wires Exhibiting a Width in the Sub-Micrometer Regime .... 211 13.2 Wires Consisting of Single Atoms ..........................216 14 Magnetism in Reduced Dimensions - Single Thin Films . . . 223 14.1 Single Thin Film on a Substrate ...........................223 14.2 Influence of a (Non-Magnetic) Capping Layer ...............230 14.3 Influence of a Magnetic Capping Layer .....................230 14.4 Comparison Between an Ideal and Real Interface ............233 14.5 Exchange Bias ..........................................233 15 Magnetism in Reduced Dimensions - Multilayers ..........239 15.1 Interlayer Exchange Coupling (IEC) Across a Non-Magnetic Spacer Layer .......................239 15.2 Interlayer Exchange Coupling Across an Antiferromagnetic Spacer Layer ........................247 15.3 Influence of the Interface Roughness on the IEC .............250 15.4 Spin Engineering by Interlayer Exchange Coupling .........255 15.5 Spin Valves .............................................255 15.6 Additional Types of Coupling .............................256 16 Magnetoresistivity .........................................259 16.1 Normal Magnetoresistance................................260 16.2 AMR - Anisotropie Magnetoresistance.....................262 16.3 GMR - Giant Magnetoresistance ..........................264 16.4 CMR - Colossal Magnetoresistance ........................270 16.5 TMR Tunnelling Magnetoresistance ......................272 17 Applications ...............................................293 17.1 MR AM - Magnetic Random Access Memory ................293 17.2 Read Heads in Hard Disks ................................301 17.3 Sensors .................................................304 18 Solutions ..................................................337 XIV Contents References .....................................................353 Abbreviations .................................................359 Symbols .......................................................361 Constants .....................................................369 Units in the SI and cgs System ................................371 Index ..........................................................373
adam_txt	Contents 1 Introduction . 1 1.1 Fundamental Terms . 1 1.2 Classification of Magnetic Material . 3 1.3 Bohr van Leeuwen Theorem . 6 2 Magnetism of Atoms . 7 2.1 Atoms in a Magnetic Field . 7 2.2 Atomic Diamagnetism . 9 2.3 Atomic Paramagnetism . 10 2.4 Hund's Rules for the Ground State of Atoms . 21 Problems . 24 3 Solid State Magnetism . 25 3.1 Model of Free Electrons . 25 3.2 Pauli Paramagnetisni. 29 3.3 Spontaneously Spin Split States . 30 3.4 Magnetism of 3d Transition Metals and Alloys . 36 Problems . 39 4 Magnetic Interactions . 41 4.1 Magnetic Dipole Interaction . 41 4.2 Direct Exchange . 42 4.3 Indirect Exchange . 43 5 Collective Magnetism . 47 5.1 Ferromagnetism . 48 5.2 Antiferromagnetism . 55 5.3 Ferrimagnetism . 62 5.4 Helical Order . 65 5.5 Spin Glasses . 67 Problems . 68 XII Contents 6 Broken Symmetry . 71 6.1 Breaking of the Symmetry . 71 6.2 Different Models of Magnetic Behavior . 73 6.3 Consequences . 77 6.4 Phase Transitions . 78 6.5 Magnetic Excitations . 83 7 Magnetic Anisotropy Effects . 89 7.1 Overview of Magnetic Anisotropies . 89 7.2 Magneto Crystalline Anisotropy . 90 7.3 Shape Anisotropy .102 7.4 Induced Magnetic Anisotropy .105 7.5 Stress Anisotropy (Magnetostriction) .108 7.6 Magnetic Surface and Interface Anisotropies .112 Problems .114 8 Magnetic Domain Structures .117 8.1 Magnetic Domains .117 8.2 Domain Walls .120 8.3 Domain Wall Width .121 8.4 Closure Domains .124 9 Magnetization Dynamics .133 9.1 Magnetic After-Effect .133 9.2 Influence of High-Frequent Magnetic Fields .139 9.3 Damping Processes .141 9.4 Ferromagnetic Resonance .145 Problems .149 10 Magnetism in Reduced Dimensions - Atoms .151 10.1 Single Atoms on a Surface .152 10.2 Quantum Mirage .156 10.3 Reversal of the Spin in a Single Atom .159 10.4 Influence of the Substrate .161 11 Magnetism in Reduced Dimensions - Clusters .165 11.1 "Every Atom Counts" .165 11.2 Influence of the Geometrical Arrangement and Surface Symmetry .168 11.3 Clusters at Step Edges .172 11.4 Comparison Between Free and Supported Clusters .174 Contents XIII 12 Magnetism in Reduced Dimensions - Nanoparticles .175 12.1 Magnetic Domains of Nanoparticles .175 12.2 Size Dependence of Magnetic Domain Formation .180 12.3 Ring Structures .185 12.4 Magnetic Vortices .187 12.5 Single Domain Particles .190 12.6 Superparamagnetism of Nanoparticles .195 12.7 Magnetism of Free Nanoparticles .199 12.8 Nanoparticles in Contact with Surfaces .203 12.9 Wet Chemically Prepared Nanoparticles .207 Problems .210 13 Magnetism in Reduced Dimensions - Nanoscaled Wires . 211 13.1 Wires Exhibiting a Width in the Sub-Micrometer Regime . 211 13.2 Wires Consisting of Single Atoms .216 14 Magnetism in Reduced Dimensions - Single Thin Films . . . 223 14.1 Single Thin Film on a Substrate .223 14.2 Influence of a (Non-Magnetic) Capping Layer .230 14.3 Influence of a Magnetic Capping Layer .230 14.4 Comparison Between an Ideal and Real Interface .233 14.5 Exchange Bias .233 15 Magnetism in Reduced Dimensions - Multilayers .239 15.1 Interlayer Exchange Coupling (IEC) Across a Non-Magnetic Spacer Layer .239 15.2 Interlayer Exchange Coupling Across an Antiferromagnetic Spacer Layer .247 15.3 Influence of the Interface Roughness on the IEC .250 15.4 "Spin Engineering" by Interlayer Exchange Coupling .255 15.5 Spin Valves .255 15.6 Additional Types of Coupling .256 16 Magnetoresistivity .259 16.1 Normal Magnetoresistance.260 16.2 AMR - Anisotropie Magnetoresistance.262 16.3 GMR - Giant Magnetoresistance .264 16.4 CMR - Colossal Magnetoresistance .270 16.5 TMR Tunnelling Magnetoresistance .272 17 Applications .293 17.1 MR AM - Magnetic Random Access Memory .293 17.2 Read Heads in Hard Disks .301 17.3 Sensors .304 18 Solutions .337 XIV Contents References .353 Abbreviations .359 Symbols .361 Constants .369 Units in the SI and cgs System .371 Index .373
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