Handbook of magnetic hybrid nanoalloys and their nanocomposites / / Sabu Thomas and Amirsadegh Rezazadeh Nochehdehi, editors |
Pubbl/distr/stampa | Cham, Switzerland : , : Springer, , [2022] |
Descrizione fisica | 1 online resource (1276 pages) |
Disciplina | 620.1697 |
Soggetto topico |
Magnetic alloys
Nanostructured materials - Magnetic properties Nanostructured materials |
ISBN | 3-030-90948-4 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Intro -- Preface -- Contents -- About the Editors -- Section Editors -- Contributors -- Part I: Theory, Modeling, and Synthesis -- 1 Nanotechnology and Medical Applications -- Introduction -- Nanomaterials for Drug Delivery and Cancer Therapy -- Gene Delivery-Based Nanomedicine -- Nanomaterial-Based Nanocarriers -- Carbon Nanomaterials -- Functionalized and Non-functionalized Carbon Nanomaterials for Delivery Process -- Magnetic Nanoparticles for Delivery Process -- Metal Nanoparticles for Delivery Process -- Nanomaterials in Tissue Engineering -- Materials Used for Nanostructured Scaffolds -- Electrospun Scaffolds -- Hydrogel-Based Scaffolds -- Nanomaterials Used for Detection -- Nanomaterials for Detection of Pathogens -- Nanomaterials for Detection of Proteins -- Nanomaterials Used in Diagnostics and Therapy -- Future of Nanomedicine -- Conclusion -- References -- 2 Synthesis of Iron-Cobalt Nanoalloys (ICNAs) and Their Metallic Composites -- Introduction -- Formation of ICNAs -- Anisotropy -- Oxidation Mechanism -- Preparation Techniques -- Chemical Methods -- Nanoalloys Formation Mechanism -- Sol-Gel Method -- Hydrothermal Method -- Physical Methods -- Molecular Beam Epitaxy -- Thermal Decomposition -- Mechanical Alloying -- Ball Milling -- Factors Influencing Nanoalloy Formation -- Effect of Temperature -- Effect of Doping -- Effect of Chemicals and Preparation Conditions -- Characterization Techniques and Resultant Properties -- Structural Studies and Properties -- X-ray Diffraction (XRD) -- X-ray Absorption Spectroscopy (XAS) -- X-ray Photoelectron Spectroscopy (XPS) -- Microscopic Analysis and Properties -- Magnetic Analysis and Properties -- Vibrating Scanning Magnetometer -- SQUID -- Spectroscopic Analysis and Properties -- Electromagnetic Analysis and Properties -- Biological Analysis and Properties -- Metallic Composites of ICNAs.
Conclusion and Future Scope -- References -- 3 Synthesis of Core-Shell Magnetic Nanoparticles -- Introduction -- Core-Shell Nanoparticles (CSNPs) -- Magnetic Nanoparticles (MNPs) and Its Magnetic Behavior -- Functionalization and Surface Coating of MNPs and Core-Shell Nanoparticles -- Synthesis and Applications of Magnetic Core-Shell NPs -- Synthesis of Noble Metal-Coated Magnetic Core-Shell NPs -- Synthesis of Silica-Coated Magnetic Core-Shell NPs -- Synthesis of MIP-Coated Magnetic Core-Shell NPs -- Synthesis of Chitosan-Coated Magnetic Core-Shell NPs -- Synthesis Methods of Core-Shell Magnetic Nanoparticles (CSMNPs) -- Micro-emulsion Synthesis Method -- Thermal Decomposition Method -- Hydrothermal and Solvothermal Synthesis Method -- Co-precipitation Synthesis Method -- Seed-Mediated Growth Method -- Layer-by-Layer Growth Method -- Conclusion -- References -- 4 Synthesis of Cobalt-Based Magnetic Nanocomposites -- Introduction -- Properties of Cobalt and Cobalt-Based Magnetic Materials -- Cobalt -- Cobalt (II,III) Oxide (Co3O4) -- Cobalt Ferrite (CoFe2O4) -- Synthesis Routes to Cobalt-Based Magnetic Nanocomposites -- Coprecipitation -- Hydrothermal and Solvothermal Approaches -- Carbonization -- The Polyol Method -- Sol-Gel -- Pechini Method -- In Situ Reduction -- In Situ Polymerization -- Interfacial Polymerization -- Ball Milling -- Spin Coating -- Melt Blending -- Other Methods -- Applications of Co-based Magnetic Nanocomposites -- Environmental Remediation -- Electromagnetic Wave Absorption -- Magnetic Hyperthermia -- Magnetic Drug Delivery -- Conclusion -- References -- 5 Synthesis of Cobalt and Its Metallic Magnetic Nanoparticles -- Introduction -- Polyol Method -- Solvent -- Properties -- Synthesis of Magnetic Nanoparticles: The Case of Co and Co-Based Alloy Nanoparticles -- Conclusion -- References. 6 Synthesis of Mn-Based Rare-Earth-Free Permanent Nanomagnets -- Introduction -- Synthesis Methods -- Stoichiometry and Formulations -- Doping -- Phase Diagrams -- MnBi -- MnAl -- MnGa -- MnSb -- Sample Preparation -- Chemical Methods -- Electrodeposition -- Mechanical Methods -- High-Energy Ball Milling -- Low-Energy Mechanical Milling -- Physical Methods -- Atomization -- Arc Melting -- Rapid Solidification Process -- Melt Spinning -- Heat Treatment or Annealing -- Quenching -- Integrated Methods -- Elucidations of Synthesized Mn-Based REFPMs -- Size, Shape, and Composition -- Purity and Strain -- Phase Transformation and Composition -- Magnetic Properties -- Conclusion -- References -- 7 Synthesis of Magnetoelectric Multiferroics and Its Composites -- Introduction to Magnetoelectric (ME) Multiferroics -- Classification of ME Multiferroic Materials -- Synthesis Methods of ME Multiferroics -- Synthesis Methods of Single-Phase and Composite Multiferroics -- Molten Salt Synthesis (MSS) -- Solgel Method -- Solid-State Reaction Method -- Hydrothermal or Solvothermal Method -- Sonochemical Method -- Solution Combustion Method -- Synthesis of Multiferroics and Composites by Thin Film Deposition Techniques -- PLD -- Sputtering -- MBE -- MOCVD -- ALD -- Conclusion -- References -- 8 Synthesis of Magnetic Carbon Nanotubes and Their Composites -- Introduction -- Classification, Morphology, Structure, and Properties of CNTs -- Structure and Morphology of CNTs -- Classification of CNTs -- Single-Walled Carbon Nanotubes (SWCNTs) -- Multi-walled Carbon Nanotubes (MWCNTs) -- Properties of CNTs -- Mechanical Properties -- Electrical Properties -- Thermal Properties -- Chemical Properties -- Optical Properties -- Magnetic Nanoparticles -- Synthesis Methods for Magnetic CNTs and Their Composites -- Template-Based Synthesis -- Self-Assembly Method. Hydrothermal/Solvothermal Processes -- Filling Process -- Chemical Vapor Deposition (CVD) -- Pyrolysis Method -- Sol-Gel Process -- Electrochemical Routes -- Electrospinning -- Co-precipitation -- Sonochemical Method -- Reverse Microemulsion Method -- Arc Discharge Technique -- Detonation-Induced Reaction -- Pulsed Laser Ablation Approach -- Applications of Magnetic CNTs and Their Composites -- Environmental Remediation -- Electrochemical Nanobiosensors -- Catalysis -- Separation or Identification of Biomolecules -- Drug Delivery and Disease Diagnosis -- Electrochemical Energy Conversion and Storage -- Conclusion -- References -- 9 Chiral Magnetic Nanocomposite Particles: Preparation and Chiral Applications -- Introduction -- Preparation of CMNPs -- Small Organic Molecules -- Amino Acids -- Cyclodextrins -- Others -- Macromolecules -- Biomacromolecules -- Synthetic Polymers -- Metal Complexes -- Chiral Applications -- Asymmetric Catalysis -- Chiral Separation -- Chiral Discrimination -- Concluding Remarks -- References -- 10 Manufacturing Techniques of Magnetic Polymer Nanocomposites -- Introduction -- Nanocomposite Materials -- Polymer Nanocomposite Materials -- Magnetic Polymer Nanocomposites -- The Core-Shell Nanocomposites -- The Self-Assembled Colloidal Nanocomposites -- Organic-Inorganic Nanocomposites -- Manufacturing Techniques of Magnetic Polymer Nanocomposites -- Conclusion -- References -- 11 Vacuum-Based Deposition Techniques to Synthesize Magnetoelectric Multiferroic Materials -- Introduction -- Basics of Thin Film Growth -- Vacuum Based Deposition Techniques -- Molecular Beam Epitaxy -- Fundamentals of MBE Instrument -- Pulsed Laser Deposition -- Photon Absorption Followed by Creation of Plasma and Ablation of the Target Material -- Dynamics of Plasma -- Deposition of the Ablated Materials on the Substrate. Nucleation and Growth of a Thin Film on the Substrate Surface -- Sputtering -- Conclusion and Future Outlook -- References -- 12 Advanced Progress in Magnetoelectric Multiferroic Composites -- Introduction -- Magnetoelectric Materials and Operating Mechanisms -- Strain-Mediated Magnetoelectric Compounds -- Charge Carriers-Mediated Magnetoelectric Compounds -- Exchange-Mediated Magnetoelectric Compounds -- Aspects Influencing Magnetoelectric Coupling in Compounds -- Interfacial Connection and Phase Connectivity -- Type of Materials and Their Properties -- Magnetoelectric Composites -- Magnetoelectric Hexaferrites -- ME in Y-Type Hexaferrites -- ME in Z-Type Hexaferrites -- ME in M-Type Hexaferrites -- ME in Other Types of Hexaferrites -- Synthesis of Magnetoelectric Materials -- Zero-Dimensional (Nanoparticles) -- One-Dimensional (Wires, Fibers, Tubes, etc.) -- Two-Dimensional (Thick or Thin Films) -- Characterization Procedures for Magnetoelectric Coupling Measurements -- Dynamic Mode Based on Lock-in Program -- Piezoresponse Force Microscopy -- Applications of Magnetoelectric Materials -- Magnetic Field Sensors -- Electric Current Sensors -- Energy Harvesting -- Random Access Memory-Based Magnetoelectric Materials -- Magnetoelectric Antenna -- Spintronics Devices Based on ME Effect -- Giant Magnetoresistance -- Tunnel Magnetoresistance -- Applications of Magnetoelectric Materials in Biomedicine -- Toxicity of Magneto-Electric Nanocomposites Toward Technological and Biological Applications -- Toxicity of Magnetoelectric Materials and Their Impact on the Environment, Users´ Health, and Technological Applications -- Toxicity Valuation of Magnetoelectric Materials in Biomedical Applications -- Conclusion and Future Challenges -- References -- 13 Surface Modification of Magnetic Hybrid Nanoalloys -- Introduction -- Magnetic Hybrid Nanoalloys (MHNAs). Surface Modification of MHNAs. |
Record Nr. | UNISA-996495161403316 |
Cham, Switzerland : , : Springer, , [2022] | ||
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Lo trovi qui: Univ. di Salerno | ||
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Magnetic Material Modelling of Electrical Machines / / edited by Armando Pires, Anouar Belahcen |
Pubbl/distr/stampa | [Place of publication not identified] : , : MDPI AG, , 2023 |
Descrizione fisica | 1 online resource (144 pages) |
Disciplina | 620.1697 |
Soggetto topico | Magnetic alloys |
ISBN | 3-0365-6355-5 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Introduction -- A Short Review of the Contributions in This Issue -- Future Developments -- Conclusions -- Author Contributions -- Funding -- Acknowledgments -- Conflicts of Interest -- References. |
Record Nr. | UNINA-9910647221403321 |
[Place of publication not identified] : , : MDPI AG, , 2023 | ||
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Lo trovi qui: Univ. Federico II | ||
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Magnetic Nanostructures : a promising approach towards RE-free permanent magnets / / Elisabetta Lottini |
Autore | Lottini Elisabeth |
Pubbl/distr/stampa | Firenze, Italy : , : Firenze University Press, , 2017 |
Descrizione fisica | 1 online resource (152 pages) : illustrations |
Disciplina | 620 |
Collana | Premio Tesi di dottorato |
Soggetto topico |
Magnetic alloys
Nanostructures |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Altri titoli varianti | Magnetic nanostructures |
Record Nr. | UNINA-9910774846503321 |
Lottini Elisabeth
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Firenze, Italy : , : Firenze University Press, , 2017 | ||
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Lo trovi qui: Univ. Federico II | ||
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The physics of dilute magnetic alloys / / Jun Kondo ; translated by Shigeru Koikegami [and three others] [[electronic resource]] |
Autore | Kondō Jun <1930-> |
Pubbl/distr/stampa | Cambridge : , : Cambridge University Press, , 2012 |
Descrizione fisica | 1 online resource (xii, 261 pages) : digital, PDF file(s) |
Disciplina | 538/.4 |
Soggetto topico |
Dilute alloys
Magnetic alloys Kondo effect Free electron theory of metals |
ISBN |
1-107-23196-5
1-139-51358-3 1-139-16217-9 1-283-61032-9 9786613922779 1-139-51801-1 1-139-51451-2 1-139-51894-1 1-139-51543-8 1-139-51708-2 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; The Physics of Dilute Magnetic Alloys; Title; Copyright; Contents; Preface; Translators' foreword; 1 Atoms; 1.1 Mean-field approximation and electronic configurations; 1.2 Multiplets; 1.3 Coulomb and exchange integrals; 1.4 Hartree's method; References and further reading; Note added by the translators:; 2 Molecules; 2.1 The H2+ molecule; 2.2 The H2 molecule; 2.3 The configuration interaction; 2.4 Second quantization; References and further reading; Note added by the translators:; 3 The Sommerfeld theory of metals; 3.1 Classification of solids; 3.1.1 Molecular crystals
3.1.2 Ionic crystals3.1.3 Covalent-bond crystals; 3.1.4 Metals; 3.2 The Sommerfeld theory; References and further reading; Note added by the translators:; 4 Band theory; 4.1 The periodic structure of crystals; 4.2 Bloch's theorem; 4.3 An approach starting from the free electron picture; 4.4 The Bloch orbital as a linear combination of atomic orbitals; 4.5 Metals and insulators; 4.6 The Wigner-Seitz theory; 5 Magnetic impurities in metals; 5.1 Local charge neutrality; 5.2 The spherical representation; 5.3 Charge distribution and the density of states; 5.4 Virtual bound states 5.5 The Anderson model I5.6 The Anderson model II; 5.7 The Coulomb interaction: UHF; 5.8 Expansion in powers of U; 5.9 s-d interaction; 5.10 Case with orbital degeneracy; References and further reading; Further reading; 6 The infrared divergence in metals; 6.1 The Anderson orthogonality theorem; 6.2 Mahan's problem; 6.3 The thermal Green's function; 6.4 Thermal Green's functions in the presence of local potentials; 6.5 The partition function in the s-d problem; 6.6 The Nozières-de Dominicis solution; 6.7 Calculation of the partition function; 6.8 A scaling approach References and further readingNote added by the translators:; 7 Wilson's theory; 7.1 Wilson's Hamiltonian; 7.2 Perturbative expansions; 7.3 Numerical calculations: scaling; 7.4 Susceptibility and specific heat; References and further reading; 8 Exact solution to the s-d problem; 8.1 A one-dimensional model; 8.2 The three-body problem; 8.3 Symmetric groups; 8.4 The N-electron problem; 8.5 Antisymmetrization; 8.6 The eigenvalue problem; 8.7 The integral equation; 8.8 The ground state; 8.9 Susceptibility; 8.10 Universality; 8.11 The excited states; 8.12 Free energy; 8.13 Specific heat References and further reading9 Recent developments; 9.1 The spin-flip rate; 9.2 The heavy electrons; 9.3 Quantum dots; References and further reading; Appendices; Appendix A: Matrix elements between Slater determinants; Appendix B: Spin function for N-electron systems; Appendix C: Fourier expansion of three-dimensional periodic functions; Appendix D: Proof of eq. (5.29); Appendix E: Relations between Green's functions; Appendix F: Expansion of free energy to order J2; Appendix G: Calculation of g±; Appendix H: Feynman's theorem; Appendix I: Elimination of adjacent pairs Appendix J: Proof of eq. (6.80) |
Record Nr. | UNINA-9910465479703321 |
Kondō Jun <1930->
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Cambridge : , : Cambridge University Press, , 2012 | ||
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Lo trovi qui: Univ. Federico II | ||
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The physics of dilute magnetic alloys / / Jun Kondo ; translated by Shigeru Koikegami [and three others] [[electronic resource]] |
Autore | Kondō Jun <1930-2022, > |
Pubbl/distr/stampa | Cambridge : , : Cambridge University Press, , 2012 |
Descrizione fisica | 1 online resource (xii, 261 pages) : digital, PDF file(s) |
Disciplina | 538/.4 |
Soggetto topico |
Dilute alloys
Magnetic alloys Kondo effect Free electron theory of metals |
ISBN |
1-107-23196-5
1-139-51358-3 1-139-16217-9 1-283-61032-9 9786613922779 1-139-51801-1 1-139-51451-2 1-139-51894-1 1-139-51543-8 1-139-51708-2 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; The Physics of Dilute Magnetic Alloys; Title; Copyright; Contents; Preface; Translators' foreword; 1 Atoms; 1.1 Mean-field approximation and electronic configurations; 1.2 Multiplets; 1.3 Coulomb and exchange integrals; 1.4 Hartree's method; References and further reading; Note added by the translators:; 2 Molecules; 2.1 The H2+ molecule; 2.2 The H2 molecule; 2.3 The configuration interaction; 2.4 Second quantization; References and further reading; Note added by the translators:; 3 The Sommerfeld theory of metals; 3.1 Classification of solids; 3.1.1 Molecular crystals
3.1.2 Ionic crystals3.1.3 Covalent-bond crystals; 3.1.4 Metals; 3.2 The Sommerfeld theory; References and further reading; Note added by the translators:; 4 Band theory; 4.1 The periodic structure of crystals; 4.2 Bloch's theorem; 4.3 An approach starting from the free electron picture; 4.4 The Bloch orbital as a linear combination of atomic orbitals; 4.5 Metals and insulators; 4.6 The Wigner-Seitz theory; 5 Magnetic impurities in metals; 5.1 Local charge neutrality; 5.2 The spherical representation; 5.3 Charge distribution and the density of states; 5.4 Virtual bound states 5.5 The Anderson model I5.6 The Anderson model II; 5.7 The Coulomb interaction: UHF; 5.8 Expansion in powers of U; 5.9 s-d interaction; 5.10 Case with orbital degeneracy; References and further reading; Further reading; 6 The infrared divergence in metals; 6.1 The Anderson orthogonality theorem; 6.2 Mahan's problem; 6.3 The thermal Green's function; 6.4 Thermal Green's functions in the presence of local potentials; 6.5 The partition function in the s-d problem; 6.6 The Nozières-de Dominicis solution; 6.7 Calculation of the partition function; 6.8 A scaling approach References and further readingNote added by the translators:; 7 Wilson's theory; 7.1 Wilson's Hamiltonian; 7.2 Perturbative expansions; 7.3 Numerical calculations: scaling; 7.4 Susceptibility and specific heat; References and further reading; 8 Exact solution to the s-d problem; 8.1 A one-dimensional model; 8.2 The three-body problem; 8.3 Symmetric groups; 8.4 The N-electron problem; 8.5 Antisymmetrization; 8.6 The eigenvalue problem; 8.7 The integral equation; 8.8 The ground state; 8.9 Susceptibility; 8.10 Universality; 8.11 The excited states; 8.12 Free energy; 8.13 Specific heat References and further reading9 Recent developments; 9.1 The spin-flip rate; 9.2 The heavy electrons; 9.3 Quantum dots; References and further reading; Appendices; Appendix A: Matrix elements between Slater determinants; Appendix B: Spin function for N-electron systems; Appendix C: Fourier expansion of three-dimensional periodic functions; Appendix D: Proof of eq. (5.29); Appendix E: Relations between Green's functions; Appendix F: Expansion of free energy to order J2; Appendix G: Calculation of g±; Appendix H: Feynman's theorem; Appendix I: Elimination of adjacent pairs Appendix J: Proof of eq. (6.80) |
Record Nr. | UNINA-9910792089503321 |
Kondō Jun <1930-2022, >
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Cambridge : , : Cambridge University Press, , 2012 | ||
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Lo trovi qui: Univ. Federico II | ||
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The physics of dilute magnetic alloys / / Jun Kondo ; translated by Shigeru Koikegami [and three others] [[electronic resource]] |
Autore | Kondō Jun <1930-2022, > |
Pubbl/distr/stampa | Cambridge : , : Cambridge University Press, , 2012 |
Descrizione fisica | 1 online resource (xii, 261 pages) : digital, PDF file(s) |
Disciplina | 538/.4 |
Soggetto topico |
Dilute alloys
Magnetic alloys Kondo effect Free electron theory of metals |
ISBN |
1-107-23196-5
1-139-51358-3 1-139-16217-9 1-283-61032-9 9786613922779 1-139-51801-1 1-139-51451-2 1-139-51894-1 1-139-51543-8 1-139-51708-2 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; The Physics of Dilute Magnetic Alloys; Title; Copyright; Contents; Preface; Translators' foreword; 1 Atoms; 1.1 Mean-field approximation and electronic configurations; 1.2 Multiplets; 1.3 Coulomb and exchange integrals; 1.4 Hartree's method; References and further reading; Note added by the translators:; 2 Molecules; 2.1 The H2+ molecule; 2.2 The H2 molecule; 2.3 The configuration interaction; 2.4 Second quantization; References and further reading; Note added by the translators:; 3 The Sommerfeld theory of metals; 3.1 Classification of solids; 3.1.1 Molecular crystals
3.1.2 Ionic crystals3.1.3 Covalent-bond crystals; 3.1.4 Metals; 3.2 The Sommerfeld theory; References and further reading; Note added by the translators:; 4 Band theory; 4.1 The periodic structure of crystals; 4.2 Bloch's theorem; 4.3 An approach starting from the free electron picture; 4.4 The Bloch orbital as a linear combination of atomic orbitals; 4.5 Metals and insulators; 4.6 The Wigner-Seitz theory; 5 Magnetic impurities in metals; 5.1 Local charge neutrality; 5.2 The spherical representation; 5.3 Charge distribution and the density of states; 5.4 Virtual bound states 5.5 The Anderson model I5.6 The Anderson model II; 5.7 The Coulomb interaction: UHF; 5.8 Expansion in powers of U; 5.9 s-d interaction; 5.10 Case with orbital degeneracy; References and further reading; Further reading; 6 The infrared divergence in metals; 6.1 The Anderson orthogonality theorem; 6.2 Mahan's problem; 6.3 The thermal Green's function; 6.4 Thermal Green's functions in the presence of local potentials; 6.5 The partition function in the s-d problem; 6.6 The Nozières-de Dominicis solution; 6.7 Calculation of the partition function; 6.8 A scaling approach References and further readingNote added by the translators:; 7 Wilson's theory; 7.1 Wilson's Hamiltonian; 7.2 Perturbative expansions; 7.3 Numerical calculations: scaling; 7.4 Susceptibility and specific heat; References and further reading; 8 Exact solution to the s-d problem; 8.1 A one-dimensional model; 8.2 The three-body problem; 8.3 Symmetric groups; 8.4 The N-electron problem; 8.5 Antisymmetrization; 8.6 The eigenvalue problem; 8.7 The integral equation; 8.8 The ground state; 8.9 Susceptibility; 8.10 Universality; 8.11 The excited states; 8.12 Free energy; 8.13 Specific heat References and further reading9 Recent developments; 9.1 The spin-flip rate; 9.2 The heavy electrons; 9.3 Quantum dots; References and further reading; Appendices; Appendix A: Matrix elements between Slater determinants; Appendix B: Spin function for N-electron systems; Appendix C: Fourier expansion of three-dimensional periodic functions; Appendix D: Proof of eq. (5.29); Appendix E: Relations between Green's functions; Appendix F: Expansion of free energy to order J2; Appendix G: Calculation of g±; Appendix H: Feynman's theorem; Appendix I: Elimination of adjacent pairs Appendix J: Proof of eq. (6.80) |
Record Nr. | UNINA-9910813683003321 |
Kondō Jun <1930-2022, >
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Cambridge : , : Cambridge University Press, , 2012 | ||
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Lo trovi qui: Univ. Federico II | ||
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Spin glass theory and beyond / Marc Mezard, Giorgio Parisi, Miguel Angel Virasoro |
Autore | Mezard, Marc |
Pubbl/distr/stampa | Singapore : World Scientific, c1987 |
Descrizione fisica | xiii, 461 p. ; 25 cm. |
Altri autori (Persone) |
Parisi, Giorgioauthor
Virasoro, Miguel Angelauthor |
Collana | World Scientific lecture notes in physics ; 9 |
Soggetto topico | Magnetic alloys |
ISBN | 9971501163 |
Classificazione |
53.1.32
53.1.62 530.41 QC176.2.S68M38 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | en |
Record Nr. | UNISALENTO-991001257999707536 |
Mezard, Marc
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Singapore : World Scientific, c1987 | ||
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Lo trovi qui: Univ. del Salento | ||
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