Verfügbarkeit: The quantum theory of magnetism

The quantum theory of magnetism:

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1. Verfasser:	Majlis, Norberto (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	New Jersey [u.a.] World Scientific 2007
Ausgabe:	2. ed.
Schlagworte:	Quantentheorie Magnetism Quantum theory Magnetismus
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XIII, 377 S.
ISBN:	9812567925 9789812567925

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adam_text	Contents 1 Paramagnetism 1 1.1 Introduction .............................. 1 1.2 Quantum mechanics of atoms .................... 4 1.2.1 L-S (Russel-Saunders) coupling ............... 4 1.2.2 Hunďs rales ......................... 6 1.2.3 Spin-orbit splitting ...................... 7 1.3 The quantum theory of paramagnetism .............. 8 1.4 Crystal-field corrections ....................... 11 1.4.1 Effects of crystal-field symmetry .............. 12 1.4.2 Stevens operator equivalents ................ 14 1.5 Quenching of L ............................ 18 1.6 Time reversal and spin ........................ 20 1.6.1 Kramers degeneracy ..................... 21 1.7 Effective spin Hamiltonian ...................... 22 1.7.1 Effective gyromagnetic ratio ................. 23 1.7.2 Single-ion anisotropy energy ................. 23 2 Interacting Spins 27 2.1 Weiss model of ferromagnetism ................... 27 2.1.1 Critical behaviour of Weiss model ............. 28 2.2 Microscopic basis of magnetism ................... 29 2.2.1 The direct exchange interaction ............... 30 2.2.2 The superexchange mechanism ............... 36 2.2.3 The RKKY interaction ................... 40 3 Mean Field Approximation 43 3.1 Helmholtz free energy ........................ 43 3.2 Mean field susceptibility ....................... 50 3.3 Specific heat of ferromagnet ..................... 52 3.4 The Oguchi method ......................... 55 3.5 Modulated phases .......................... 58 3.6 MFA for antiferromagnetism ..................... 61 3.6.1 Longitudinal susceptibility .................. 63 3.6.2 Transverse susceptibility ................... 65 ix CONTENTS 3.6.3 Spin-flop and other transitions ............... 68 3.7 Helimagnetism ............................ 72 3.8 Goldstone s theorem ......................... 76 Spin Waves 79 4.1 Introduction .............................. 79 4.2 Holstein-Primakoff transformation ................. 82 4.3 Linear spin-wave theory ....................... 84 4.4 Semiclassical picture ......................... 85 4.5 Macroscopic magnon theory ..................... 88 4.6 Thermal properties .......................... 89 4.6.1 Total spin deviation ..................... 89 4.6.2 Non-linear corrections .................... 91 4.7 The Heisenberg antiferromagnet .................. 92 4.7.1 Introduction ......................... 92 4.7.2 Antiferromagnetic spin-waves ................ 93 4.7.3 Sublattice magnetization .................. 97 4.7.4 Ground state energy of AFM ................ 99 Magnetic Anisotropy 101 5.1 Introduction .............................. 101 5.2 Microscopic origin of anisotropy ................... 104 5.3 Magneto-elastic coupling ....................... 108 5.4 Magnetostriction ........................... Ill 5.5 Inverse magnetostriction ....................... 113 5.6 Induced magneto-crystalline anisotropy .............. 115 Green s Functions Methods 117 6.1 Definitions ...............................117 6.2 Spectral representation ........................119 6.3 RPA for spin 1/2 ferromagnet ....................122 6.4 Comparison of RPA and MFA ....................126 6.5 RPA for arbitrary spin ........................127 6.6 RPA for ferromagnets ........................129 6.6.1 Paramagnetic phase .....................129 6.6.2 Linear FM chain .......................132 6.6.3 Square FM lattice ......................133 6.7 FM with a finite applied field ....................135 6.8 RPA for antiferromagnet .......................136 6.8.1 Spin 1/2 AFM ........................137 6.8.2 Arbitrary spin AFM .....................138 6.8.3 Zero-point spin deviation ..................139 6.8.4 Correlation length ......................140 6.9 RPA susceptibility of AFM .....................143 6.10 Spin-flop transition .........................146 6.11 ХЦ at low Τ ..............................148 CONTENTS xi 6.12 Transverse susceptibility ....................... 149 6.13 Single-site anisotropy ......................... 150 6.14 Dynamic linear response ....................... 153 6.15 Energy absorbed from external field ................ 156 6.16 Susceptibility of FM......................... 158 6.17 Corrections to RPA ......................... 158 7 Dipole-Dipole Interactions 161 7.1 Dipolar Hamiltonian ......................... 161 7.2 Dipole-exchange spin-waves ..................... 166 7.3 Uniform precession (k = 0) mode .................. 170 7.4 Eigenmodes for к φ 0........................ 174 7.4.1 Demagnetization factors ................... 176 7.5 Ellipticity of spin precession ..................... 176 7.6 Effect of magnons on total spin ................... 177 7.7 Magnetostatic modes ......................... 179 8 Coherent States of Magnons 183 8.1 Introduction .............................. 183 8.2 Coherent states of bosons ...................... 183 8.2.1 Overcompleteness of coherent states basis ......... 185 8.3 Magnon number distribution function ............... 186 8.4 Uncertainty relations ......................... 187 8.5 Phase states .............................. 188 8.6 Magnon states of well defined phase ................ 190 8.7 Properties of the single-mode number states ............ 191 8.8 Properties of a single-mode phase state ............... 192 8.9 Expectation value of local spin operators in a coherent state . . . 192 9 Itinerant Magnetism 195 9.1 Introduction ..............................195 9.2 Pauli paramagnetic susceptibility ..................195 9.3 Stoner model of ferromagnetic metals ...............196 9.4 Hubbard Hamiltonian ........................198 9.5 Instability of paramagnetic phase ..................199 9.6 Magnons in the Stoner model ....................200 9.6.1 The RPA susceptibility ...................200 9.6.2 Singularities of the susceptibility ..............204 9.7 Tc in Stoner model ..........................208 9.8 Metals with degenerate bands ....................210 9.9 Spin-density wave ...........................213 9.10 Hartree-Fock description of SDW ..................215 9.11 Effects of correlations ........................222 9.11.1 Kinetic exchange interaction ................224 9.12 Paramagnetic instability and paramagnons ............228 9.12.1 Paramagnon contribution to the specific heat .......232 xii CONTENTS 9.13 Beyond Stoner theory and RPA ...................234 9.14 Magnetism and superconductivity .................234 10 Indirect Exchange 239 10.1 Introduction ..............................239 10.2 Effective s-d exchange interaction ..................240 10.3 Indirect exchange Hamiltonian ...................247 10.4 Range function and band structure .................248 10.5 Semiconductors ............................256 10.5.1 Intrinsic semiconductors, high Τ ..............256 10.5.2 Intrinsic semiconductors, low Τ ...............257 10.5.3 Degenerate semiconductors .................259 10.6 Magnetic multilayer systems .....................259 11 Local Moments 263 11.1 The s-d and Anderson Hamiltonians ................ 263 11.2 Anderson model ........................... 263 11.3 Hartree-Fock solution of Anderson Hamiltonian .......... 264 11.4 Kondo effect .............................. 267 11.4.1 Calculation of resistivity ................... 268 11.4.2 Calculation of the collision time ............... 269 11.4.3 Higher order contributions ..................275 12 Low Dimensions 277 12.1 Introduction ..............................277 12.2 Proof of Mermin-Wagner theorem .................278 12.2.1 Bogoliubov inequality ....................278 12.2.2 Application to the Heisenberg model ............279 12.3 Dipolar interactions in low dimensions ...............282 12.3.1 Dipole-exchange cross-over .................286 12.4 One dimensional instabilities ....................287 12.5 Antiferromagnetic chain .......................289 12.6 RPA for the AFM chain .......................291 12.6.1 Exchange dominated regime .................291 12.6.2 Dipolar dominated regime ..................294 12.7 Dipolar interaction in layers .....................295 12.7.1 Monolayer ...........................297 12.7.2 Bilayer .............................298 13 Surface Magnetism 305 13.1 Introduction .............................. 305 13.2 MFA treatment of surfaces ...................... 306 13.3 Surface excitations .......................... 309 13.4 LRPA method ............................ 310 13.5 Wave functions for bulk and surface ................ 316 13.6 Surface density of magnon states .................. 317 CONTENTS xiii 13.7 Surface phase-transitions .......................319 13.8 Dipolar surface effects ........................323 13.9 Surface magnetism in metals ....................324 14 Two-Magnon Eigenstates 329 14.1 Introduction ..............................329 14.2 Green s function formalism .....................331 14.3 One dimension ............................337 14.4 Two dimensions ............................339 14.5 Summary of results ..........................340 14.6 Anisotropy effects ...........................341 15 Other Interactions 345 15.1 Introduction ..............................345 15.2 Two-magnon interaction .......................347 15.3 Three-magnon processes .......................349 15.4 Magnon-phonon interaction .....................353 15.5 Bilinear magnon-phonon interaction ................355 Appendix A Group Theory 359 A.I Definition of group ..........................359 A. 2 Group representations ........................360 A.2.1 Reducibility ..........................361 A.3 Orthogonality relations ........................362 A.4 Projection operators .........................362 A. 5 Coordinate transformations .....................363 A.6 Wigner-Eckart theorem .......................364 A. 7 Space groups .............................365 A.8 Bloch s theorem ............................366 Appendix В Time Reversal 369 B.I Antilinear operators .........................369 B.2 Anti-unitary operators ........................371 B.3 Time reversal .............................371 Index 375
adam_txt	Contents 1 Paramagnetism 1 1.1 Introduction . 1 1.2 Quantum mechanics of atoms . 4 1.2.1 L-S (Russel-Saunders) coupling . 4 1.2.2 Hunďs rales . 6 1.2.3 Spin-orbit splitting . 7 1.3 The quantum theory of paramagnetism . 8 1.4 Crystal-field corrections . 11 1.4.1 Effects of crystal-field symmetry . 12 1.4.2 Stevens operator equivalents . 14 1.5 Quenching of L . 18 1.6 Time reversal and spin . 20 1.6.1 Kramers degeneracy . 21 1.7 Effective spin Hamiltonian . 22 1.7.1 Effective gyromagnetic ratio . 23 1.7.2 Single-ion anisotropy energy . 23 2 Interacting Spins 27 2.1 Weiss model of ferromagnetism . 27 2.1.1 Critical behaviour of Weiss model . 28 2.2 Microscopic basis of magnetism . 29 2.2.1 The direct exchange interaction . 30 2.2.2 The superexchange mechanism . 36 2.2.3 The RKKY interaction . 40 3 Mean Field Approximation 43 3.1 Helmholtz free energy . 43 3.2 Mean field susceptibility . 50 3.3 Specific heat of ferromagnet . 52 3.4 The Oguchi method . 55 3.5 Modulated phases . 58 3.6 MFA for antiferromagnetism . 61 3.6.1 Longitudinal susceptibility . 63 3.6.2 Transverse susceptibility . 65 ix CONTENTS 3.6.3 Spin-flop and other transitions . 68 3.7 Helimagnetism . 72 3.8 Goldstone's theorem . 76 Spin Waves 79 4.1 Introduction . 79 4.2 Holstein-Primakoff transformation . 82 4.3 Linear spin-wave theory . 84 4.4 Semiclassical picture . 85 4.5 Macroscopic magnon theory . 88 4.6 Thermal properties . 89 4.6.1 Total spin deviation . 89 4.6.2 Non-linear corrections . 91 4.7 The Heisenberg antiferromagnet . 92 4.7.1 Introduction . 92 4.7.2 Antiferromagnetic spin-waves . 93 4.7.3 Sublattice magnetization . 97 4.7.4 Ground state energy of AFM . 99 Magnetic Anisotropy 101 5.1 Introduction . 101 5.2 Microscopic origin of anisotropy . 104 5.3 Magneto-elastic coupling . 108 5.4 Magnetostriction . Ill 5.5 Inverse magnetostriction . 113 5.6 Induced magneto-crystalline anisotropy . 115 Green's Functions Methods 117 6.1 Definitions .117 6.2 Spectral representation .119 6.3 RPA for spin 1/2 ferromagnet .122 6.4 Comparison of RPA and MFA .126 6.5 RPA for arbitrary spin .127 6.6 RPA for ferromagnets .129 6.6.1 Paramagnetic phase .129 6.6.2 Linear FM chain .132 6.6.3 Square FM lattice .133 6.7 FM with a finite applied field .135 6.8 RPA for antiferromagnet .136 6.8.1 Spin 1/2 AFM .137 6.8.2 Arbitrary spin AFM .138 6.8.3 Zero-point spin deviation .139 6.8.4 Correlation length .140 6.9 RPA susceptibility of AFM .143 6.10 Spin-flop transition .146 6.11 ХЦ at low Τ .148 CONTENTS xi 6.12 Transverse susceptibility . 149 6.13 Single-site anisotropy . 150 6.14 Dynamic linear response . 153 6.15 Energy absorbed from external field . 156 6.16 Susceptibility of FM. 158 6.17 Corrections to RPA . 158 7 Dipole-Dipole Interactions 161 7.1 Dipolar Hamiltonian . 161 7.2 Dipole-exchange spin-waves . 166 7.3 Uniform precession (k = 0) mode . 170 7.4 Eigenmodes for к φ 0. 174 7.4.1 Demagnetization factors . 176 7.5 Ellipticity of spin precession . 176 7.6 Effect of magnons on total spin . 177 7.7 Magnetostatic modes . 179 8 Coherent States of Magnons 183 8.1 Introduction . 183 8.2 Coherent states of bosons . 183 8.2.1 Overcompleteness of coherent states basis . 185 8.3 Magnon number distribution function . 186 8.4 Uncertainty relations . 187 8.5 Phase states . 188 8.6 Magnon states of well defined phase . 190 8.7 Properties of the single-mode number states . 191 8.8 Properties of a single-mode phase state . 192 8.9 Expectation value of local spin operators in a coherent state . . . 192 9 Itinerant Magnetism 195 9.1 Introduction .195 9.2 Pauli paramagnetic susceptibility .195 9.3 Stoner model of ferromagnetic metals .196 9.4 Hubbard Hamiltonian .198 9.5 Instability of paramagnetic phase .199 9.6 Magnons in the Stoner model .200 9.6.1 The RPA susceptibility .200 9.6.2 Singularities of the susceptibility .204 9.7 Tc in Stoner model .208 9.8 Metals with degenerate bands .210 9.9 Spin-density wave .213 9.10 Hartree-Fock description of SDW .215 9.11 Effects of correlations .222 9.11.1 Kinetic exchange interaction .224 9.12 Paramagnetic instability and paramagnons .228 9.12.1 Paramagnon contribution to the specific heat .232 xii CONTENTS 9.13 Beyond Stoner theory and RPA .234 9.14 Magnetism and superconductivity .234 10 Indirect Exchange 239 10.1 Introduction .239 10.2 Effective s-d exchange interaction .240 10.3 Indirect exchange Hamiltonian .247 10.4 Range function and band structure .248 10.5 Semiconductors .256 10.5.1 Intrinsic semiconductors, high Τ .256 10.5.2 Intrinsic semiconductors, low Τ .257 10.5.3 Degenerate semiconductors .259 10.6 Magnetic multilayer systems .259 11 Local Moments 263 11.1 The s-d and Anderson Hamiltonians . 263 11.2 Anderson model . 263 11.3 Hartree-Fock solution of Anderson Hamiltonian . 264 11.4 Kondo effect . 267 11.4.1 Calculation of resistivity . 268 11.4.2 Calculation of the collision time . 269 11.4.3 Higher order contributions .275 12 Low Dimensions 277 12.1 Introduction .277 12.2 Proof of Mermin-Wagner theorem .278 12.2.1 Bogoliubov inequality .278 12.2.2 Application to the Heisenberg model .279 12.3 Dipolar interactions in low dimensions .282 12.3.1 Dipole-exchange cross-over .286 12.4 One dimensional instabilities .287 12.5 Antiferromagnetic chain .289 12.6 RPA for the AFM chain .291 12.6.1 Exchange dominated regime .291 12.6.2 Dipolar dominated regime .294 12.7 Dipolar interaction in layers .295 12.7.1 Monolayer .297 12.7.2 Bilayer .298 13 Surface Magnetism 305 13.1 Introduction . 305 13.2 MFA treatment of surfaces . 306 13.3 Surface excitations . 309 13.4 LRPA method . 310 13.5 Wave functions for bulk and surface . 316 13.6 Surface density of magnon states . 317 CONTENTS xiii 13.7 Surface phase-transitions .319 13.8 Dipolar surface effects .323 13.9 Surface magnetism in metals .324 14 Two-Magnon Eigenstates 329 14.1 Introduction .329 14.2 Green's function formalism .331 14.3 One dimension .337 14.4 Two dimensions .339 14.5 Summary of results .340 14.6 Anisotropy effects .341 15 Other Interactions 345 15.1 Introduction .345 15.2 Two-magnon interaction .347 15.3 Three-magnon processes .349 15.4 Magnon-phonon interaction .353 15.5 Bilinear magnon-phonon interaction .355 Appendix A Group Theory 359 A.I Definition of group .359 A. 2 Group representations .360 A.2.1 Reducibility .361 A.3 Orthogonality relations .362 A.4 Projection operators .362 A. 5 Coordinate transformations .363 A.6 Wigner-Eckart theorem .364 A. 7 Space groups .365 A.8 Bloch's theorem .366 Appendix В Time Reversal 369 B.I Antilinear operators .369 B.2 Anti-unitary operators .371 B.3 Time reversal .371 Index 375
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spelling	Majlis, Norberto Verfasser aut The quantum theory of magnetism Norberto Majlis 2. ed. New Jersey [u.a.] World Scientific 2007 XIII, 377 S. txt rdacontent n rdamedia nc rdacarrier Quantentheorie Magnetism Quantum theory Quantentheorie (DE-588)4047992-4 gnd rswk-swf Magnetismus (DE-588)4037021-5 gnd rswk-swf Magnetismus (DE-588)4037021-5 s Quantentheorie (DE-588)4047992-4 s DE-604 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016361431&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis graph. Darst.
spellingShingle	Majlis, Norberto The quantum theory of magnetism Quantentheorie Magnetism Quantum theory Quantentheorie (DE-588)4047992-4 gnd Magnetismus (DE-588)4037021-5 gnd
subject_GND	(DE-588)4047992-4 (DE-588)4037021-5
title	The quantum theory of magnetism
title_auth	The quantum theory of magnetism
title_exact_search	The quantum theory of magnetism
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title_full	The quantum theory of magnetism Norberto Majlis
title_fullStr	The quantum theory of magnetism Norberto Majlis
title_full_unstemmed	The quantum theory of magnetism Norberto Majlis
title_short	The quantum theory of magnetism
title_sort	the quantum theory of magnetism
topic	Quantentheorie Magnetism Quantum theory Quantentheorie (DE-588)4047992-4 gnd Magnetismus (DE-588)4037021-5 gnd
topic_facet	Quantentheorie Magnetism Quantum theory Magnetismus
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