Verfügbarkeit: The physics of ferromagnetism

The physics of ferromagnetism:

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Bibliographische Detailangaben
Hauptverfasser:	Miyazaki, Terunobu (VerfasserIn), Jin, Hanmin (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2012
Schriftenreihe:	Springer series in materials science 158
Schlagworte:	Ferromagnetismus
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XVI, 482 S. Ill., graph. Darst.
ISBN:	9783642255823 9783642255830

Internformat

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Datensatz im Suchindex

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adam_text	IMAGE 1 CONTENTS PART I FOUNDATION O F MAGNETISM 1 BASIS OF MAGNETISM 3 1.1 BASIC MAGNETIC LAWS AND MAGNETIC QUANTITIES 3 1.1.1 BASIC LAWS OF MAGNETIC FORCES, MAGNETIC INDUCTION VECTOR, AND MAGNETIC MOMENT 3 1.1.2 VECTORS OF MAGNETIZATION, MAGNETIC POLARIZATION AND MAGNETIC FIELD, AND MAGNETIC POLARIZATION MOMENT 4 1.1.3 MAXWELL EQUATIONS 5 1.1.4 MAGNETIC VECTOR POTENTIAL 5 1.1.5 MAGNETIC MOMENT 6 1.1.6 MAGNETIC MOMENT OF CURRENT COIL 6 1.1.7 MAGNETIC MOMENT OF ELECTRON SPIN 7 1.1.8 MAGNETIC FIELD STRENGTH, MAGNETIC INDUCTION, MAGNETIZATION, PERMEABILITY, AND SUSCEPTIBILITY . . . . 8 1.2 MAGNETIC COULOMB'S LAW, STATIC MAGNETIC FIELD, AND MAGNETIC CIRCUIT 9 1.2.1 MAGNETIC CHARGE AND MAGNETIC COULOMB'S LAW. . . . 9 1.2.2 EXAMPLES OF APPLICATION OF MAGNETIC COULOMB'S LAW 11 1.2.3 MAGNETIC FIELD PRODUCED BY ELECTRIC CURRENT 13 1.2.4 VOLUME INTEGRAL OF SCALAR PRODUCTS OF H M WITH H/,B M , AND B 14 1.2.5 MAGNETIC CIRCUIT 14 1.3 ZEEMAN ENERGY, MAGNETIZATION ENERGY, AND MAGNETOSTATIC ENERGY 18 1.3.1 ZEEMAN ENERGY 18 1.3.2 MAGNETIZATION ENERGY 19 1.3.3 MAGNETOSTATIC ENERGY 19 VII HTTP://D-NB.INFO/1016561687 IMAGE 2 VIII CONTENTS 1.4 THERMODYNAMICS FOR MAGNETIC MEDIA 21 1.4.1 PRINCIPLES OF THERMODYNAMICS FOR MAGNETIC MEDIA 21 1.4.2 FREE ENERGY AND THERMAL POTENTIAL 22 1.4.3 STABILIZATION CONDITIONS FOR A SYSTEM AT CONSTANT TEMPERATURE 23 1.4.4 FIRST-AND SECOND-ORDER TRANSFORMATIONS 24 1.4.5 MAGNETO-CALORIC EFFECT 25 1.5 HAMILTONIAN OF AN ELECTRIC CHARGED PARTICLE IN STATIC ELECTRIC AND MAGNETIC FIELDS 27 1.5.1 HAMILTONIAN AND MOMENTUM IN CLASSICAL MECHANICS 27 1.5.2 HAMILTONIAN AND MOMENTUM IN QUANTUM MECHANICS 28 APPENDIX 1: PHYSICAL CONSTANTS 29 APPENDIX 2: UNITS AND THEIR CONVERSIONS 29 APPENDIX 3: SELECTIONS FROM VECTOR ANALYSIS 30 REFERENCES 33 2 MAGNETISM OF ATOMS 35 2.1 ELECTRON CONFIGURATION OF ATOM 35 2.1.1 ELECTRON SPIN 35 2.1.2 HARTREE-FOCK EQUATIONS 36 2.1.3 CENTRAL FIELD APPROXIMATION 38 2.1.4 ELECTRON CONFIGURATION OF ATOM 41 2.1.5 ANGULAR MOMENTUM OPERATORS 41 2.2 TERM AND MULTIPLET 45 2.2.1 RESIDUAL COULOMB INTERACTION AND TERM 45 2.2.2 SPIN-ORBIT INTERACTION AND MULTIPLET 47 2.3 INTRINSIC MAGNETIC MOMENT AND GYROMAGNETIC RATIO OF ATOM 53 2.3.1 MAGNETIC MOMENT AND GYROMAGNETIC RATIO OF AN ELECTRON ORBIT 53 2.3.2 MAGNETIC MOMENT AND GYROMAGNETIC RATIO OF AN ELECTRON SPIN 53 2.3.3 INTRINSIC MAGNETIC MOMENT, G FACTOR, AND EFFECTIVE MAGNETIC MOMENT OF AN ATOM 54 2.4 PARAMAGNETISM AND DIAMAGNETISM OF ATOM 57 2.4.1 MAGNETIC MOMENT OPERATOR OF AN ATOM IN A MAGNETIC FIELD 57 2.4.2 PARAMAGNETISM OF ATOM 58 2.4.3 DIAMAGNETISM OF ATOM 59 IMAGE 3 CONTENTS I X 2.5 EXCHANGE INTERACTION IN HE ATOM 61 2.5.1 EXCHANGE HAMILTONIAN 61 2.5.2 POSITIVENESS OF EXCHANGE INTEGRAL OF FORM (2.157) 64 2.6 EXCHANGE INTERACTION IN H2 MOLECULE 65 2.6.1 EIGENSTATES AND EIGENENERGIES OF THE TWO ELECTRON SYSTEM OF H 2 65 2.6.2 EXCHANGE INTERACTION IN H 2 67 2.7 HYPERFINE INTERACTIONS IN ATOM 68 2.7.1 SPIN, MAGNETIC MOMENT, AND QUADRUPOLE OF NUCLEUS 68 2.7.2 HYPERFINE INTERACTIONS 70 2.7.3 HYPERFINE MAGNETIC INTERACTION 70 2.7.4 ELECTRIC-QUADRUPOLE INTERACTION 72 2.7.5 HYPERFINE COULOMB INTERACTION OF THE NUCLEUS WITH AN OVERLAPPING ELECTRON CLOUD 73 2.7.6 TOTAL HYPERFINE INTERACTION 73 APPENDIX 4: SELECTIONS FROM GROUP THEORY 75 APPENDIX 5: SECOND QUANTIZED REPRESENTATION OF OPERATORS 87 APPENDIX 6: PERTURBATION THEORY 94 REFERENCES 96 3 MAGNETISM OF SOLIDS 97 3.1 CLASSIFICATION OF MAGNETIC PROPERTIES 97 3.1.1 DIAMAGNETISM 97 3.1.2 PARAMAGNETISM 98 3.1.3 ANTIFERROMAGNETISM 99 3.1.4 FERROMAGNETISM 100 3.1.5 FERRIMAGNETISM 102 3.1.6 MAGNETIC GLASS 102 3.1.7 SPIN GLASS 103 3.2 MAGNETIC MOMENT OF ATOM (ION) IN SOLIDS 105 3.2.1 FE-NI ALLOY 105 3.2.2 MAGNETIC MOMENT OF 3D ATOM IN ALLOYS 105 3.2.3 MAGNETIC MOMENT OF 3D ION IN OXIDES 107 3.2.4 MAGNETIC MOMENT OF 4 F ION IN SOLIDS 107 3.3 NEUTRON DIFFRACTION AND MAGNETIC STRUCTURE 108 3.3.1 NEUTRON DIFFRACTION 108 3.3.2 MAGNETIC STRUCTURE OF MNO 109 3.3.3 MAGNETIC STRUCTURE OF HO METAL 109 3.3.4 MAGNETIC STRUCTURES OF SPINEL FERRITES I L L 3.3.5 MAGNETIC STRUCTURE OF BA(SR) FERRITES 112 3.3.6 MAGNETIC STRUCTURES OF RARE EARTH IRON GARNETS . . . . 114 3.3.7 MAGNETIC STRUCTURES OF PEROVSKITE FERRITES 115 3.3.8 MAGNETIC STRUCTURE OF FE METAL 116 IMAGE 4 X CONTENTS 3.4 MOLECULAR FIELD THEORY 117 3.4.1 WEISS'S MOLECULAR FIELD THEORY 117 3.4.2 NEEL'S MOLECULAR FIELD THEORY 120 3.4.3 ORIGIN OF MOLECULAR FIELD 124 3.5 SPIN WAVE 124 3.5.1 SPIN WAVE 125 3.5.2 QUASICLASSICAL PICTURE OF SPIN WAVE 128 3.5.3 BLOCH T 3 / 2 LAW 129 3.6 CRYSTALLINE ELECTRIC FIELD 131 3.6.1 CEF INTERACTIONS OF 3D AND 4 F ELECTRONS 131 3.6.2 CEF HAMILTONIAN 132 3.6.3 CEF EFFECTS FOR 3D ION AT THE B SITE OF SPINEL FERRITE 134 3.6.4 JAHN-TELLER EFFECT 136 3.6.5 QUENCHING OF ORBITAL ANGULAR MOMENTUM 137 3.6.6 GYROMAGNETIC EFFECT 137 3.6.7 PRECESSION MOTION OF MAGNETIZATION VECTOR IN A MAGNETIC FIELD 139 3.7 FREE ELECTRON GAS 143 3.7.1 EIGENSTATE AND EIGENENERGY OF FREE ELECTRON 143 3.7.2 ENERGY BAND OF FREE ELECTRON GAS 144 3.7.3 MAGNETIC PROPERTIES OF FREE ELECTRONS 145 3.8 ESSENTIALS OF BAND THEORY 146 3.8.1 INTRODUCTION 146 3.8.2 BLOCH WAVE 147 3.8.3 BAND THEORY BASED ON THE MEAN FIELD APPROXIMATION 148 3.8.4 STONER MODEL OF FERROMAGNETISM 150 3.8.5 DENSITY FUNCTIONAL THEORY 154 3.8.6 LOCAL DENSITY APPROXIMATION AND GENERALIZED GRADIENT APPROXIMATION 156 3.8.7 METHODS OF ENERGY BAND CALCULATIONS 157 3.8.8 EXAMPLES OF BAND STRUCTURES 159 3.9 HYPERFINE INTERACTIONS IN SOLIDS 162 3.9.1 HAMILTONIAN OF A NUCLEUS IN A MAGNETIC FIELD 162 3.9.2 HYPERFINE ENERGY EIGENVALUE 164 3.9.3 HYPERFINE MAGNETIC FIELD 165 3.9.4 PRINCIPLE OF NMR SPECTROSCOPY 166 3.9.5 PRINCIPLE OF MOSSBAUER SPECTROSCOPY 167 3.9.6 EXAMPLES OF NMR AND MOSSBAUER SPECTROSCOPY APPLICATION 169 REFERENCES 173 IMAGE 5 CONTENTS X I 4 EXCHANGE INTERACTION 175 4.1 DIRECT EXCHANGE INTERACTION IN SOLID 175 4.1.1 HAMILTONIAN OF ONE MAGNETIC ELECTRON ATOM SYSTEM 175 4.1.2 EXCHANGE HAMILTONIAN IN H2 176 4.1.3 EXCHANGE HAMILTONIAN IN H\ 177 4.1.4 TOTAL EXCHANGE HAMILTONIAN 178 4.1.5 INTERATOMIC EXCHANGE HAMILTONIAN IN MULTI MAGNETIC ELECTRON ATOM SYSTEM 179 4.1.6 EXCHANGE INTEGRAL AS A FUNCTION OF DISTANCE BETWEEN A PAIR OF ATOMS 179 4.2 SUPEREXCHANGE INTERACTION 180 4.2.1 PHYSICAL PICTURE OF SUPEREXCHANGE INTERACTION 180 4.2.2 SEMI-QUANTITATIVE ANALYSIS OF SUPEREXCHANGE INTERACTION 181 4.2.3 ANDERSON'S POTENTIAL AND KINETIC EXCHANGES 186 4.3 RKKY EXCHANGE INTERACTION 188 4.3.1 F-S EXCHANGE HAMILTONIAN H CX 189 4.3.2 FIRST-ORDER PERTURBATION OF H EX 190 4.3.3 OSCILLATORY DECAY OF CONDUCTION ELECTRON MAGNETIZATION 191 4.3.4 INDIRECT EXCHANGE INTERACTION BETWEEN RARE-EARTH IONS 193 4.3.5 CURIE TEMPERATURE AND DE GENNES FACTOR 194 4.4 DOUBLE EXCHANGE INTERACTION 200 4.5 CLASSIC EXPRESSIONS OF EXCHANGE ENERGY 201 4.5.1 EXCHANGE ENERGY IN CUBIC CRYSTALS 201 4.5.2 EXCHANGE ENERGY IN NON-CUBIC CRYSTALS 203 REFERENCES 204 5 MAGNETIC ANISOTROPY 205 5.1 MAGNETOCRYSTALLINE ANISOTROPY 205 5.1.1 ANISOTROPY OF MAGNETIZATION CURVE OF CRYSTAL AND CONCEPT OF MAGNETOCRYSTALLINE ANISOTROPY 205 5.1.2 PHENOMENOLOGICAL EXPRESSIONS OF FK 206 5.1.3 MAGNETIC ANISOTROPY FIELD 209 5.2 MECHANISMS OF MAGNETOCRYSTALLINE ANISOTROPY 211 5.2.1 MAGNETIC MOMENT INTERACTION MODEL 211 5.2.2 SINGLE-ION MODEL 211 5.2.3 SINGLE-ION MODEL FOR 3D ION 212 5.2.4 SINGLE-ION MODEL FOR 4F ION 218 5.2.5 TWO-ION MODEL 223 IMAGE 6 XII CONTENTS 5.3 SHAPE ANISOTROPY 224 5.3.1 DEMAGNETIZING FIELD AND DEMAGNETIZING ENERGY . . . 224 5.3.2 DEMAGNETIZING FACTOR AND DEMAGNETIZING ENERGY OF AN ELLIPSOIDAL MAGNET AND SHAPE ANISOTROPY . . . . 224 5.4 INDUCED MAGNETIC ANISOTROPY 226 5.4.1 ANISOTROPY OF CO METAL INDUCED BY COOLING IN A MAGNETIC FIELD 226 5.4.2 ATOMIC PAIR ORDERING ANISOTROPY 227 5.4.3 SHAPE ANISOTROPY OF MAGNETIC FILM DEPOSITED BY OBLIQUE INCIDENCE 229 5.4.4 MAGNETIZATION-INDUCED ANISOTROPY OF THIN FILM. . . . 230 5.4.5 MAGNETIC ANISOTROPY OF ALNICO INDUCED BY TEMPERING IN A MAGNETIC FIELD 232 5.4.6 UNIDIRECTIONAL ANISOTROPY OF CO-COO PARTICLES INDUCED BY COOLING IN A MAGNETIC FIELD 233 5.4.7 MAGNETIC ANISOTROPY OF AMORPHOUS GD-CO THIN FILM EASY AXIS NORMAL TO THE FILM PLANE 234 5.4.8 MAGNETIC FIELD-INDUCED ANISOTROPY OF CU-2%MN SPIN-GLASS 235 5.5 RANDOM ANISOTROPY AND EFFECTIVE ANISOTROPY 239 5.5.1 RANDOM ANISOTROPY OF AMORPHOUS MAGNETIC MATERIALS 240 5.5.2 EFFECTIVE ANISOTROPY OF AMORPHOUS MAGNETIC MATERIALS 241 5.5.3 EFFECTIVE ANISOTROPY OF NANOCRYSTALLINE MATERIALS 242 REFERENCES 242 6 MAGNETOSTRICTIVE EFFECTS 245 6.1 MAGNETOSTRICTION AND MAGNETO-ELASTIC ENERGY 245 6.1.1 MAGNETOSTRICTION PHENOMENA 245 6.1.2 ELASTIC MECHANICS FOR CUBIC CRYSTAL 246 6.1.3 MAGNETO-ELASTIC ENERGY 248 6.1.4 SPONTANEOUS STRAIN TENSOR 249 6.1.5 PHENOMENOLOGICAL EXPRESSION OF MAGNETOSTRICTION . FOR CUBIC CRYSTAL 250 6.1.6 PHENOMENOLOGICAL EXPRESSIONS OF MAGNETOSTRICTION FOR HEXAGONAL CRYSTAL 251 6.1.7 ORIGIN OF MAGNETOSTRICTION 252 6.2 STRESS ENERGY 255 REFERENCES 259 IMAGE 7 CONTENTS XIII 7 MAGNETIC DOMAIN 261 7.1 MAGNETOSTATIC ENERGIES O F STRIP AND CHESSBOARD DOMAIN STRUCTURES 261 7.2 MAGNETIC DOMAIN WALL 264 7.2.1 BLOCH WALL 264 7.2.2 GENERAL EXPRESSIONS OF THE STRUCTURE AND ENERGY OF BLOCH WALL 264 7.2.3 180 WALL OF EASY AXIS CRYSTAL 266 7.2.4 90 WALL OF CUBIC CRYSTAL 267 7.2.5 180 WALL OF CUBIC CRYSTAL UNDER STRESS 267 7.2.6 TYPICAL VALUES OF (5 W AND Y W 268 7.2.7 NEEL WALL 268 7.3 MAGNETIC DOMAIN STRUCTURE 269 7.3.1 METHODS OF DOMAIN OBSERVATION 269 7.3.2 ANALYSES OF DOMAIN STRUCTURES OF EASY AXIS CRYSTAL PLATE 272 7.3.3 DOMAIN STRUCTURES OF EASY AXIS CRYSTAL PLATES OBSERVED IN EXPERIMENT 276 7.3.4 MEASUREMENT OF Y W AND A VALUES 276 7.3.5 MAGNETIC BUBBLE 277 7.3.6 DOMAINS IN CUBIC CRYSTAL PLATE 280 7.3.7 DOMAINS OBSERVED IN POLYCRYSTALS 282 7.3.8 SINGLE DOMAIN 282 7.3.9 M S DISTRIBUTION IN SUBMICRON-SCALE DOTS 284 7.3.10 SUPERPARAMAGNETISM 285 REFERENCES 286 8 MICROMAGNETISM 287 8.1 BROWN'S EQUATION 287 8.1.1 BROWN'S EQUATION 287 8.1.2 NUCLEATION OF MAGNETIZATION REVERSAL IN INFINITE LONG CYLINDRICAL CRYSTAL 289 8.2 FINITE ELEMENT METHOD 293 8.2.1 DOMAIN WALL IN BULK NDA F E ^ B 294 8.2.2 MODELS OF NANOCRYSTALLINE NDFEB 294 8.2.3 EFFECTS OF H DIRECTION AND THE VALUE OF N ON THE CALCULATION OF HYSTERESIS CURVE OF NANOCRYSTALLINE NDFEB 297 8.2.4 HYSTERESIS CURVE OF NANOCRYSTALLINE NDFEB 298 REFERENCES 301 IMAGE 8 XIV CONTENTS PART II MAGNETIC MATERIALS 9 SOFT MAGNETISM 305 9.1 MAGNETIZATION PROCESS 305 9.1.1 ROTATION MAGNETIZATION 305 9.1.2 ASTEROID CURVE 308 9.1.3 MAGNETIC DOMAIN WALL DISPLACEMENT 310 9.1.4 AC MAGNETIZATION AND LOSS 314 9.2 SOFT MAGNETIC MATERIAL 318 9.2.1 BRIEF OUTLINE 318 9.2.2 DETAILS OF DEVELOPMENT RESEARCH OF MAGNETIC METALLIC SOFT MATERIAL 319 REFERENCES 337 10 HARD MAGNETISM 339 10.1 REQUIREMENTS ON PERMANENT MAGNETIC PROPERTIES 339 10.2 COERCIVITY MECHANISMS 341 10.2.1 COERCIVITY OF ROTATION PROCESS 341 10.2.2 CHARACTERISTICS OF COERCIVITY DOMINATED BY NUCLEATION OF REVERSED DOMAIN 341 10.2.3 CHARACTERISTICS OF COERCIVITY DOMINATED BY DOMAIN WALL PINNING 343 10.2.4 COERCIVITY OF DOMAIN WALL PINNING AT PLANAR DEFECT 344 10.3 PERMANENT MAGNETIC MATERIALS 349 10.3.1 SURVEY OF PERMANENT MAGNETS AND THEIR PROPERTIES 350 10.3.2 BA(SR) FERRITES 350 10.3.3 ALNICO 353 10.3.4 FECRCO 356 10.3.5 PTCO 357 10.3.6 FOUNDATION OF RARE EARTH MAGNETS 358 10.3.7 SMCO 5 359 10.3.8 SMCOCUFEZR 361 10.3.9 NDFEB 363 10.3.10 INTERSTITIAL SM 2 FE 17 N^ AND NDFE10.5M01.5NJ. 367 10.3.11 BOND MAGNETS 368 REFERENCES 368 PART III SPINTRONICS 11 MAGNETORESISTANCE EFFECT 373 11.1 HISTORY OF RESEARCH 373 IMAGE 9 CONTENTS X V 11.2 BASIS OF ELECTRICAL CONDUCTION 375 11.2.1 DRIFT VELOCITY AND FERMI VELOCITY 375 11.2.2 MATTHIESSEN'S LAW 377 11.2.3 TWO-CURRENT MODEL 377 11.2.4 RESISTANCE DUE TO SPIN FLIP 378 11.2.5 TEMPERATURE DEPENDENCE OF P 380 11.2.6 HOW TO OBTAIN AND A = P J P ^ 381 11.3 CLASSIFICATION OF MAGNETORESISTANCE EFFECTS 383 11.4 ANISOTROPIC MAGNETORESISTANCE EFFECT 384 11.5 ORIGIN OF ANISOTROPIC MAGNETORESISTANCE EFFECT 386 11.6 MAGNETORESISTANCE CURVE BASED ON THE MAGNETIZATION ROTATION MODEL 392 11.7 GIANT MAGNETORESISTANCE EFFECT OF METALLIC SUPERLATTICES AND MULTILAYER FILMS 393 REFERENCES 401 12 TUNNEL MAGNETORESISTANCE EFFECT 403 12.1 INTRODUCTION 403 12.1.1 ROOT OF TUNNEL EFFECT 403 12.1.2 ROOT OF MAGNETORESISTANCE EFFECT 404 12.2 PRINCIPLE OF TMR 405 12.3 BARRIER HEIGHT DEPENDENCE OF TMR RATIO 409 12.4 COMPARISON AMONG TMR, AMR, AND PHE EFFECTS 410 12.5 SPIN VALVE-TYPE JUNCTION WITH EXCHANGE BIAS LAYER 412 12.6 SINGLE CRYSTALLINE HIGH-QUALITY TUNNEL JUNCTION 414 12.7 TUNNEL JUNCTION WITH MGO BARRIER 415 12.8 TUNNEL JUNCTION WITH HALF METAL ELECTRODES 419 12.8.1 CRYSTAL STRUCTURE 421 12.8.2 MAGNETIC MOMENT, CURIE TEMPERATURE, AND MAGNETIC ANISOTROPY 422 12.8.3 MAGNETORESISTANCE 424 12.9 OTHER TUNNEL JUNCTIONS 428 12.9.1 GIANT MAGNETORESISTANCE EFFECT IN GRANULAR STRUCTURE 428 12.9.2 TUNNEL MAGNETORESISTANCE OF MAGNETIC SEMICONDUCTORS 429 12.9.3 ORGANIC MOLECULES-FERROMAGNET HYBRID TUNNEL JUNCTION 429 REFERENCES 430 13 MRAM 433 13.1 INTRODUCTION 433 13.2 HISTORY OF MAGNETIC MEMORY 434 13.3 PRINCIPLES 435 IMAGE 10 X V I CONTENTS 13.4 SPIN TRANSFER TORQUES AND THE CHANGE OF CELL STRUCTURE 436 13.4.1 SPIN TRANSFER TORQUE 436 13.4.2 FROM IN-PLANE MAGNETIZATION TO OUT O F PLANE MAGNETIZATION 439 13.5 ISSUES OF MRAM DEVELOPMENT 441 13.5.1 HIGH SIGNAL POWER OUTPUT 441 13.5.2 HIGH SPEED WRITING/READING 442 13.5.3 LOW POWER CONSUMPTION 442 13.5.4 HIGH RELIABILITIES 443 13.5.5 MAKING TO LARGE CAPACITIES 444 REFERENCES 445 14 TECHNOLOGY THAT ACCOMPANIES THE DEVELOPMENT OF SPINTRONICS DEVICES 447 14.1 ANALYSIS OF THE /-V CURVE 447 14.2 INELASTIC ELECTRON TUNNELING SPECTROSCOPY 449 14.3 CONDUCTING ATOMIC FORCE MICROSCOPE AND STM 452 14.4 MEASUREMENT OF POLARIZATION 454 14.5 SPIN DYNAMICS 458 14.5.1 LLG EQUATION AND GILBERT DAMPING 459 14.5.2 EXPERIMENT 461 14.5.3 SPIN PUMPING 467 14.5.4 DAMPING CONSTANT OF VARIOUS KINDS OF MATERIALS. . . 472 REFERENCES 475 INDEX 477
any_adam_object	1
author	Miyazaki, Terunobu Jin, Hanmin
author_facet	Miyazaki, Terunobu Jin, Hanmin
author_role	aut aut
author_sort	Miyazaki, Terunobu
author_variant	t m tm h j hj
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dewey-full	538.44
dewey-hundreds	500 - Natural sciences and mathematics
dewey-ones	538 - Magnetism
dewey-raw	538.44
dewey-search	538.44
dewey-sort	3538.44
dewey-tens	530 - Physics
discipline	Physik
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illustrated	Illustrated
indexdate	2024-07-21T00:34:00Z
institution	BVB
isbn	9783642255823 9783642255830
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-025052333
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physical	XVI, 482 S. Ill., graph. Darst.
publishDate	2012
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publisher	Springer
record_format	marc
series	Springer series in materials science
series2	Springer series in materials science
spelling	Miyazaki, Terunobu Verfasser aut The physics of ferromagnetism Terunobu Miyazaki ; Hanmin Jin Berlin [u.a.] Springer 2012 XVI, 482 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Springer series in materials science 158 Ferromagnetismus (DE-588)4154131-5 gnd rswk-swf Ferromagnetismus (DE-588)4154131-5 s DE-604 Jin, Hanmin Verfasser aut Springer series in materials science 158 (DE-604)BV000683335 158 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=3902789&prov=M&dok_var=1&dok_ext=htm Inhaltstext DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025052333&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Miyazaki, Terunobu Jin, Hanmin The physics of ferromagnetism Springer series in materials science Ferromagnetismus (DE-588)4154131-5 gnd
subject_GND	(DE-588)4154131-5
title	The physics of ferromagnetism
title_auth	The physics of ferromagnetism
title_exact_search	The physics of ferromagnetism
title_full	The physics of ferromagnetism Terunobu Miyazaki ; Hanmin Jin
title_fullStr	The physics of ferromagnetism Terunobu Miyazaki ; Hanmin Jin
title_full_unstemmed	The physics of ferromagnetism Terunobu Miyazaki ; Hanmin Jin
title_short	The physics of ferromagnetism
title_sort	the physics of ferromagnetism
topic	Ferromagnetismus (DE-588)4154131-5 gnd
topic_facet	Ferromagnetismus
url	http://deposit.dnb.de/cgi-bin/dokserv?id=3902789&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025052333&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
volume_link	(DE-604)BV000683335
work_keys_str_mv	AT miyazakiterunobu thephysicsofferromagnetism AT jinhanmin thephysicsofferromagnetism

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