Verfügbarkeit: The quantum theory of magnetism /

The quantum theory of magnetism /:

This book is intended as a basic text for a two-term graduate course for physicists, engineers and chemists with a background in quantum and statistical mechanics. What sets it apart from other publications on the subject is its extensive use of Green's function techniques and its detailed disc...

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1. Verfasser:	Majlis, Norberto
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Singapore ; River Edge, NJ : World Scientific, ©2000.
Schlagworte:	Magnetism. Quantum theory. Quantum Theory Magnétisme. Théorie quantique. magnetism. SCIENCE > Physics > Magnetism. Magnetism Quantum theory
Online-Zugang:	Volltext
Zusammenfassung:	This book is intended as a basic text for a two-term graduate course for physicists, engineers and chemists with a background in quantum and statistical mechanics. What sets it apart from other publications on the subject is its extensive use of Green's function techniques and its detailed discussion of the application of the mean-field approximation and dipole-dipole interactions in one, two and three dimensions. A chapter each has been devoted to low-dimensional systems, surface magnetism and layered systems. A total of 60 exercises have also been included.
Beschreibung:	1 online resource (xi, 422 pages) : illustrations
Bibliographie:	Includes bibliographical references and index.
ISBN:	9812385436 9789812385437

Internformat

MARC


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505	0		\|a 1. Paramagnetism. 1.1. Introduction. 1.2. Quantum mechanics of atoms. 1.3. The quantum theory of paramagnetism. 1.4. Crystal-field corrections. 1.5. Quenching of L. 1.6. Time reversal and spin. 1.7. Effective spin Hamiltonian -- 2. Interacting spins. 2.1. Weiss model of ferromagnetism. 2.2. Microscopic basis of magnetism -- 3. Mean field approximation. 3.1. Helmholtz free energy. 3.2. Mean field susceptibility. 3.3. Specific heat of Ferromagnet. 3.4. The Oguchi method. 3.5. Modulated phases. 3.6. MFA for antiferromagnetism. 3.7. Helimagnetism. 3.8. Goldstone's theorem -- 4. Spin waves. 4.1. Introduction. 4.2. Holstein-Primakoff transformation. 4.3. Linear spin-wave theory. 4.4. Semiclassical picture. 4.5. Macroscopic magnon theory. 4.6. Thermal properties. 4.7. The Heisenberg antiferromagnet. 4.8. Introduction. 4.9. AFM spin-waves. 4.10. Sublattice magnetization. 4.11. Ground state energy of AFM -- 5. Green's functions methods. 5.1. Definitions. 5.2. Spectral representation. 5.3. RPA for spin 1/2 ferromagnet. 5.4. Comparison of RPA and MFA. 5.5. RPA for arbitrary spin. 5.6. RPA for ferromagnets. 5.7. FM with a finite applied field. 5.8. RPA for antiferrornagnet. 5.9. RPA susceptibility of AFM. 5.10. Spin-flop transition. 5.11. [symbol] at low T. 5.12. Transverse susceptibility. 5.13. Single-site anisotropy. 5.14. Dynamic linear response. 5.15. Energy absorbed from external field. 5.16. Susceptibility of FM. 5.17. Corrections to RPA -- 6. Dipole-Dipole interactions. 6.1. Dipolar Hamiltonian. 6.2. Dipole-exchange spin-waves. 6.3. Uniform precession (k = 0) mode. 6.4. Eingenmodes for k [symbol] 0. 6.5. Ellipticity of spin precession. 6.6. Effect of magnons on total spin. 6.7. Magnetostatic modes.
505	8		\|a 7. Itinerant magnetism. 7.1. Introduction. 7.2. Hubbard Hamiltonian. 7.3. Instability of paramagnetic phase. 7.4. Magnons in the Stoner model. 7.5. [symbol] in Stoner model. 7.6. Metals with degenerate bands. 7.7. Spin-density waves. 7.8. Hartree Fock description of SDW. 7.9. Effects of correlations -- 8. Indirect Exchange. 8.1. Introduction. 8.2. Effective s-d exchange interaction. 8.3. Indirect exchange Hamiltonian. 8.4. Range function and band structure. 8.5. Semiconductors. 8.6. Magnetic multilayer systems -- 9. Low dimensions. 9.1. Introduction. 9.2. Mermin-Wagner theorem. 9.3. Dipolar interactions in low dimensions. 9.4. One dimensional instabilities. 9.5. Antiferromagnetic chain. 9.6. RPA for the AFM chain. 9.7. Dipolar interaction in layers -- 10. Surface magnetism. 10.1. Introduction. 10.2. MFA treatment of surfaces. 10.3. Surface excitations. 10.4. LRPA method. 10.5. Wave functions for bulk and surface. 10.6. Surface density of magnon states. 10.7. Surface phase-transitions. 10.8. Dipolar surface effects. 10.9. Surface magnetism in metals -- 11. Two-magnon eigenstates. 11.1. Introduction. 11.2. Green's function formalism. 11.3. One dimension. 11.4. Two dimensions. 11.5. Summary of results. 11.6. Anisotropy effects -- 12. Other interactions. 12.1. Introduction. 12.2. Two-magnon interaction. 12.3. Three-magnon processes. 12.4. Magnon-phonon interaction. 12.5. Bilinear magnon-phonon interaction.
520			\|a This book is intended as a basic text for a two-term graduate course for physicists, engineers and chemists with a background in quantum and statistical mechanics. What sets it apart from other publications on the subject is its extensive use of Green's function techniques and its detailed discussion of the application of the mean-field approximation and dipole-dipole interactions in one, two and three dimensions. A chapter each has been devoted to low-dimensional systems, surface magnetism and layered systems. A total of 60 exercises have also been included.
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contents	1. Paramagnetism. 1.1. Introduction. 1.2. Quantum mechanics of atoms. 1.3. The quantum theory of paramagnetism. 1.4. Crystal-field corrections. 1.5. Quenching of L. 1.6. Time reversal and spin. 1.7. Effective spin Hamiltonian -- 2. Interacting spins. 2.1. Weiss model of ferromagnetism. 2.2. Microscopic basis of magnetism -- 3. Mean field approximation. 3.1. Helmholtz free energy. 3.2. Mean field susceptibility. 3.3. Specific heat of Ferromagnet. 3.4. The Oguchi method. 3.5. Modulated phases. 3.6. MFA for antiferromagnetism. 3.7. Helimagnetism. 3.8. Goldstone's theorem -- 4. Spin waves. 4.1. Introduction. 4.2. Holstein-Primakoff transformation. 4.3. Linear spin-wave theory. 4.4. Semiclassical picture. 4.5. Macroscopic magnon theory. 4.6. Thermal properties. 4.7. The Heisenberg antiferromagnet. 4.8. Introduction. 4.9. AFM spin-waves. 4.10. Sublattice magnetization. 4.11. Ground state energy of AFM -- 5. Green's functions methods. 5.1. Definitions. 5.2. Spectral representation. 5.3. RPA for spin 1/2 ferromagnet. 5.4. Comparison of RPA and MFA. 5.5. RPA for arbitrary spin. 5.6. RPA for ferromagnets. 5.7. FM with a finite applied field. 5.8. RPA for antiferrornagnet. 5.9. RPA susceptibility of AFM. 5.10. Spin-flop transition. 5.11. [symbol] at low T. 5.12. Transverse susceptibility. 5.13. Single-site anisotropy. 5.14. Dynamic linear response. 5.15. Energy absorbed from external field. 5.16. Susceptibility of FM. 5.17. Corrections to RPA -- 6. Dipole-Dipole interactions. 6.1. Dipolar Hamiltonian. 6.2. Dipole-exchange spin-waves. 6.3. Uniform precession (k = 0) mode. 6.4. Eingenmodes for k [symbol] 0. 6.5. Ellipticity of spin precession. 6.6. Effect of magnons on total spin. 6.7. Magnetostatic modes. 7. Itinerant magnetism. 7.1. Introduction. 7.2. Hubbard Hamiltonian. 7.3. Instability of paramagnetic phase. 7.4. Magnons in the Stoner model. 7.5. [symbol] in Stoner model. 7.6. Metals with degenerate bands. 7.7. Spin-density waves. 7.8. Hartree Fock description of SDW. 7.9. Effects of correlations -- 8. Indirect Exchange. 8.1. Introduction. 8.2. Effective s-d exchange interaction. 8.3. Indirect exchange Hamiltonian. 8.4. Range function and band structure. 8.5. Semiconductors. 8.6. Magnetic multilayer systems -- 9. Low dimensions. 9.1. Introduction. 9.2. Mermin-Wagner theorem. 9.3. Dipolar interactions in low dimensions. 9.4. One dimensional instabilities. 9.5. Antiferromagnetic chain. 9.6. RPA for the AFM chain. 9.7. Dipolar interaction in layers -- 10. Surface magnetism. 10.1. Introduction. 10.2. MFA treatment of surfaces. 10.3. Surface excitations. 10.4. LRPA method. 10.5. Wave functions for bulk and surface. 10.6. Surface density of magnon states. 10.7. Surface phase-transitions. 10.8. Dipolar surface effects. 10.9. Surface magnetism in metals -- 11. Two-magnon eigenstates. 11.1. Introduction. 11.2. Green's function formalism. 11.3. One dimension. 11.4. Two dimensions. 11.5. Summary of results. 11.6. Anisotropy effects -- 12. Other interactions. 12.1. Introduction. 12.2. Two-magnon interaction. 12.3. Three-magnon processes. 12.4. Magnon-phonon interaction. 12.5. Bilinear magnon-phonon interaction.
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spelling	Majlis, Norberto. The quantum theory of magnetism / Norberto Majlis. Singapore ; River Edge, NJ : World Scientific, ©2000. 1 online resource (xi, 422 pages) : illustrations text txt rdacontent computer c rdamedia online resource cr rdacarrier Includes bibliographical references and index. Print version record. 1. Paramagnetism. 1.1. Introduction. 1.2. Quantum mechanics of atoms. 1.3. The quantum theory of paramagnetism. 1.4. Crystal-field corrections. 1.5. Quenching of L. 1.6. Time reversal and spin. 1.7. Effective spin Hamiltonian -- 2. Interacting spins. 2.1. Weiss model of ferromagnetism. 2.2. Microscopic basis of magnetism -- 3. Mean field approximation. 3.1. Helmholtz free energy. 3.2. Mean field susceptibility. 3.3. Specific heat of Ferromagnet. 3.4. The Oguchi method. 3.5. Modulated phases. 3.6. MFA for antiferromagnetism. 3.7. Helimagnetism. 3.8. Goldstone's theorem -- 4. Spin waves. 4.1. Introduction. 4.2. Holstein-Primakoff transformation. 4.3. Linear spin-wave theory. 4.4. Semiclassical picture. 4.5. Macroscopic magnon theory. 4.6. Thermal properties. 4.7. The Heisenberg antiferromagnet. 4.8. Introduction. 4.9. AFM spin-waves. 4.10. Sublattice magnetization. 4.11. Ground state energy of AFM -- 5. Green's functions methods. 5.1. Definitions. 5.2. Spectral representation. 5.3. RPA for spin 1/2 ferromagnet. 5.4. Comparison of RPA and MFA. 5.5. RPA for arbitrary spin. 5.6. RPA for ferromagnets. 5.7. FM with a finite applied field. 5.8. RPA for antiferrornagnet. 5.9. RPA susceptibility of AFM. 5.10. Spin-flop transition. 5.11. [symbol] at low T. 5.12. Transverse susceptibility. 5.13. Single-site anisotropy. 5.14. Dynamic linear response. 5.15. Energy absorbed from external field. 5.16. Susceptibility of FM. 5.17. Corrections to RPA -- 6. Dipole-Dipole interactions. 6.1. Dipolar Hamiltonian. 6.2. Dipole-exchange spin-waves. 6.3. Uniform precession (k = 0) mode. 6.4. Eingenmodes for k [symbol] 0. 6.5. Ellipticity of spin precession. 6.6. Effect of magnons on total spin. 6.7. Magnetostatic modes. 7. Itinerant magnetism. 7.1. Introduction. 7.2. Hubbard Hamiltonian. 7.3. Instability of paramagnetic phase. 7.4. Magnons in the Stoner model. 7.5. [symbol] in Stoner model. 7.6. Metals with degenerate bands. 7.7. Spin-density waves. 7.8. Hartree Fock description of SDW. 7.9. Effects of correlations -- 8. Indirect Exchange. 8.1. Introduction. 8.2. Effective s-d exchange interaction. 8.3. Indirect exchange Hamiltonian. 8.4. Range function and band structure. 8.5. Semiconductors. 8.6. Magnetic multilayer systems -- 9. Low dimensions. 9.1. Introduction. 9.2. Mermin-Wagner theorem. 9.3. Dipolar interactions in low dimensions. 9.4. One dimensional instabilities. 9.5. Antiferromagnetic chain. 9.6. RPA for the AFM chain. 9.7. Dipolar interaction in layers -- 10. Surface magnetism. 10.1. Introduction. 10.2. MFA treatment of surfaces. 10.3. Surface excitations. 10.4. LRPA method. 10.5. Wave functions for bulk and surface. 10.6. Surface density of magnon states. 10.7. Surface phase-transitions. 10.8. Dipolar surface effects. 10.9. Surface magnetism in metals -- 11. Two-magnon eigenstates. 11.1. Introduction. 11.2. Green's function formalism. 11.3. One dimension. 11.4. Two dimensions. 11.5. Summary of results. 11.6. Anisotropy effects -- 12. Other interactions. 12.1. Introduction. 12.2. Two-magnon interaction. 12.3. Three-magnon processes. 12.4. Magnon-phonon interaction. 12.5. Bilinear magnon-phonon interaction. This book is intended as a basic text for a two-term graduate course for physicists, engineers and chemists with a background in quantum and statistical mechanics. What sets it apart from other publications on the subject is its extensive use of Green's function techniques and its detailed discussion of the application of the mean-field approximation and dipole-dipole interactions in one, two and three dimensions. A chapter each has been devoted to low-dimensional systems, surface magnetism and layered systems. A total of 60 exercises have also been included. Magnetism. http://id.loc.gov/authorities/subjects/sh85079759 Quantum theory. http://id.loc.gov/authorities/subjects/sh85109469 Quantum Theory https://id.nlm.nih.gov/mesh/D011789 Magnétisme. Théorie quantique. magnetism. aat SCIENCE Physics Magnetism. bisacsh Magnetism fast Quantum theory fast has work: QUANTUM THEORY OF MAGNETISM, THE (Text) https://id.oclc.org/worldcat/entity/E39PCYgYXt86bW3TfqRxmT3jkC https://id.oclc.org/worldcat/ontology/hasWork Print version: Majlis, Norberto. Quantum theory of magnetism. Singapore ; River Edge, NJ : World Scientific, ©2000 981024018X (DLC) 2001269525 (OCoLC)46624297 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=91503 Volltext
spellingShingle	Majlis, Norberto The quantum theory of magnetism / 1. Paramagnetism. 1.1. Introduction. 1.2. Quantum mechanics of atoms. 1.3. The quantum theory of paramagnetism. 1.4. Crystal-field corrections. 1.5. Quenching of L. 1.6. Time reversal and spin. 1.7. Effective spin Hamiltonian -- 2. Interacting spins. 2.1. Weiss model of ferromagnetism. 2.2. Microscopic basis of magnetism -- 3. Mean field approximation. 3.1. Helmholtz free energy. 3.2. Mean field susceptibility. 3.3. Specific heat of Ferromagnet. 3.4. The Oguchi method. 3.5. Modulated phases. 3.6. MFA for antiferromagnetism. 3.7. Helimagnetism. 3.8. Goldstone's theorem -- 4. Spin waves. 4.1. Introduction. 4.2. Holstein-Primakoff transformation. 4.3. Linear spin-wave theory. 4.4. Semiclassical picture. 4.5. Macroscopic magnon theory. 4.6. Thermal properties. 4.7. The Heisenberg antiferromagnet. 4.8. Introduction. 4.9. AFM spin-waves. 4.10. Sublattice magnetization. 4.11. Ground state energy of AFM -- 5. Green's functions methods. 5.1. Definitions. 5.2. Spectral representation. 5.3. RPA for spin 1/2 ferromagnet. 5.4. Comparison of RPA and MFA. 5.5. RPA for arbitrary spin. 5.6. RPA for ferromagnets. 5.7. FM with a finite applied field. 5.8. RPA for antiferrornagnet. 5.9. RPA susceptibility of AFM. 5.10. Spin-flop transition. 5.11. [symbol] at low T. 5.12. Transverse susceptibility. 5.13. Single-site anisotropy. 5.14. Dynamic linear response. 5.15. Energy absorbed from external field. 5.16. Susceptibility of FM. 5.17. Corrections to RPA -- 6. Dipole-Dipole interactions. 6.1. Dipolar Hamiltonian. 6.2. Dipole-exchange spin-waves. 6.3. Uniform precession (k = 0) mode. 6.4. Eingenmodes for k [symbol] 0. 6.5. Ellipticity of spin precession. 6.6. Effect of magnons on total spin. 6.7. Magnetostatic modes. 7. Itinerant magnetism. 7.1. Introduction. 7.2. Hubbard Hamiltonian. 7.3. Instability of paramagnetic phase. 7.4. Magnons in the Stoner model. 7.5. [symbol] in Stoner model. 7.6. Metals with degenerate bands. 7.7. Spin-density waves. 7.8. Hartree Fock description of SDW. 7.9. Effects of correlations -- 8. Indirect Exchange. 8.1. Introduction. 8.2. Effective s-d exchange interaction. 8.3. Indirect exchange Hamiltonian. 8.4. Range function and band structure. 8.5. Semiconductors. 8.6. Magnetic multilayer systems -- 9. Low dimensions. 9.1. Introduction. 9.2. Mermin-Wagner theorem. 9.3. Dipolar interactions in low dimensions. 9.4. One dimensional instabilities. 9.5. Antiferromagnetic chain. 9.6. RPA for the AFM chain. 9.7. Dipolar interaction in layers -- 10. Surface magnetism. 10.1. Introduction. 10.2. MFA treatment of surfaces. 10.3. Surface excitations. 10.4. LRPA method. 10.5. Wave functions for bulk and surface. 10.6. Surface density of magnon states. 10.7. Surface phase-transitions. 10.8. Dipolar surface effects. 10.9. Surface magnetism in metals -- 11. Two-magnon eigenstates. 11.1. Introduction. 11.2. Green's function formalism. 11.3. One dimension. 11.4. Two dimensions. 11.5. Summary of results. 11.6. Anisotropy effects -- 12. Other interactions. 12.1. Introduction. 12.2. Two-magnon interaction. 12.3. Three-magnon processes. 12.4. Magnon-phonon interaction. 12.5. Bilinear magnon-phonon interaction. Magnetism. http://id.loc.gov/authorities/subjects/sh85079759 Quantum theory. http://id.loc.gov/authorities/subjects/sh85109469 Quantum Theory https://id.nlm.nih.gov/mesh/D011789 Magnétisme. Théorie quantique. magnetism. aat SCIENCE Physics Magnetism. bisacsh Magnetism fast Quantum theory fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85079759 http://id.loc.gov/authorities/subjects/sh85109469 https://id.nlm.nih.gov/mesh/D011789
title	The quantum theory of magnetism /
title_auth	The quantum theory of magnetism /
title_exact_search	The quantum theory of magnetism /
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	quantum theory of magnetism
topic	Magnetism. http://id.loc.gov/authorities/subjects/sh85079759 Quantum theory. http://id.loc.gov/authorities/subjects/sh85109469 Quantum Theory https://id.nlm.nih.gov/mesh/D011789 Magnétisme. Théorie quantique. magnetism. aat SCIENCE Physics Magnetism. bisacsh Magnetism fast Quantum theory fast
topic_facet	Magnetism. Quantum theory. Quantum Theory Magnétisme. Théorie quantique. magnetism. SCIENCE Physics Magnetism. Magnetism Quantum theory
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=91503
work_keys_str_mv	AT majlisnorberto thequantumtheoryofmagnetism AT majlisnorberto quantumtheoryofmagnetism

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