Verfügbarkeit: Solid state physics

Solid state physics: an introduction

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1. Verfasser:	Hofmann, Philip 1967- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Weinheim WILEY-VCH 2008
Schriftenreihe:	Physics textbook
Schlagworte:	Solid state physics Solid state physics > Problems, exercises, etc Festkörperphysik Lehrbuch
Online-Zugang:	Inhaltsverzeichnis Inhaltstext Inhaltsverzeichnis
Beschreibung:	IX, 224 S. Ill., graph. Darst.
ISBN:	9783527408610 3527408614

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Datensatz im Suchindex

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adam_text	Contents Preface IX ì Chemical Bonding in Solids I 1.1 Attractive and Repulsive Forces 1 1.2 Ionic Bonding 2 1.3 Covalent Bonding 3 1.4 Metallic Bonding 5 1.5 Hydrogen Bonding 6 1.6 van der Waals Bonding 6 1.7 Discussion and Problems 7 2 Crystal Structures 9 2.1 General Description of Crystal Structures 9 2.2 Some Important Crystal Structures 11 2.2.1 Cubic Structures 11 2.2.2 Close-Packed Structures 13 2.2.3 Covalent Structures 14 2.3 Crystal Structure Determination 15 2.3.1 Х -Ray Diffraction ÍS 2.3.1.1 Bragg Theory 15 2.3.1.2 Lattice Planes and Miller Indices 16 2.3.1.3 General Diffraction Theory 17 2.3.1.4 The Reciprocal Lattice 19 2.3.1.5 The Meaning of the Reciprocal Lattice 20 2.3.1.6 Х -Ray Diffraction from Periodic Structures 22 2.3.1.7 The Ewald Construction 22 2.3.1.8 Relation Between Bragg and Laue Theory 23 2.3.2 Other Methods 24 2.3.3 Inelastic Scattering 24 2.4 Discussion and Problems 24 VI Contents 3 Mechanical Properties 29 3.1 Elastic Deformation 31 3.1.1 Macroscopic Picture 31 3.1.1.1 Elastic Constants 31 3.1.1.2 Poisson's Ratio 31 3.1.1.3 Relation Between Elastic Constants 33 3.1.2 Microscopic Picture 33 3.2 Plastic Deformation 35 3.2.1 Estimate of the Yield Stress 35 3.2.2 Point Defects and Dislocations 37 3.2.3 The Role of Defects in Plastic Deformation 38 3.2.4 Fracture 39 3.3 Discussion and Problems 40 4 Thermal Properties of the Lattice 43 4.1 Lattice Vibrations 43 4.1.1 A Simple Harmonic Oscillator 43 4.1.2 An Infinite Chain of Atoms 44 4.1.2.1 One Atom Per Unit Cell 44 4.1.2.2 The First Brillouin Zone 46 4.1.2.3 Two Atoms Per Unit Cell 47 4.1.3 A Finite Chain of Atoms 48 4.1.4 Quantized Vibrations, Phonons 50 4.1.5 Three-Dimensional Solids 51 4.1.5.1 Generalization to Three Dimensions 51 4.1.5.2 Estimation of the Vibrational Frequencies from the Elastic Constants 53 4.2 Heat Capacity of the Lattice 54 4.2.1 Classical Theory and Experimental Results 54 4.2.2 Einstein Model 55 4.2.3 Debye Model 58 4.3 Thermal Conductivity 62 4.4 Thermal Expansion 64 4.5 Allotropie Phase Transitions and Melting 66 4.6 Discussion and Problems 68 5 Electronic Properties of Metals: Classical Approach 71 5.1 Bask Assumptions of the Drude Model 71 5.2 Results from the Drude Model 73 5.2.1 DC Electrical Conductivity 73 S 2.2 Hall Effect 75 5.2.3 Optical Reflectivity of Metals 76 5.2.4 The Wiedemann-Franz Law 79 5.3 Shortcomings of the Drude Model 80 5.4 Discussion and Problems 81 Contents VII 6 Electronic Properties of Metals: Quantum Mechanical Approach 83 6.1 The Idea of Energy Bands 84 6.2 Free Electron Model 86 6.2.1 The Quantum Mechanical Eigenstates 86 6.2.2 Electronic Heat Capacity 90 6.2.3 The Wiedemann-Franz Law 92 6.2.4 Screening 92 6.3 The General Form of the Electronic States 93 6.4 Nearly Free Electron Model 96 6.5 Energy Bands in Real Solids 100 6.6 Transport Properties 104 6.7 Brief Review of Some Key Ideas 108 6.8 Discussion and Problems 109 7 Semiconductors 113 7.1 Intrinsic Semiconductors 114 7.1.1 Temperature Dependence of the Carrier Density 126 7.2 Doped Semiconductors 121 7.2.1 η and ρ Doping 121 7.2.2 Carrier Density 123 7.3 Conductivity of Semiconductors 125 7.4 Semiconductor Devices 126 7.4.1 The pn Junction 126 7.4.2 Transistors 130 7.43 Optoelectronic Devices 132 7.5 Discussion and Problems 133 8 Magnetism 137 8.1 Macroscopic Description 137 8.2 Magnetic Effects in Atoms 139 8.3 Weak Magnetism in Solids 143 8.3.1 Diamagnetism 244 8.3.1.1 Diamagnetism of the Ions 244 8.3.1.2 Diamagnetism of Free Electrons 144 8.3.2 Paramagnetism 144 8.3.2.1 Curie Paramagnetism 144 8.3.2.2 Pauli Paramagnetism 246 8.4 Magnetic Ordering 148 8.4.1 Magnetic Ordering and the Exchange Interaction 149 8.4.2 Temperature Dependence of the Ordering 152 8.4.3 Ferromagnetic Domains 154 8.4.4 Hysteresis 154 8.5 Discussion and Problems 256 VIII Contents 9 Dielectrics 161 9.1 Macroscopic Description 161 9.2 Microscopic Polarization 163 9.3 The Local Field 165 9.4 Frequency Dependence of the Dielectric Constant 166 9.5 Other Effects 171 9.5.1 Impurities in Dielectrics 171 9.5.2 Ferroelectricity 171 9.5.3 Piezoelectricity 173 9.5.4 Dielectric Breakdown 174 9.6 Discussion and Problems 174 10 Superconductivity 177 10.1 Basic Experimental Facts 178 10.1.1 Zero Resistivity 178 10.1.2 The Meissner Effect 181 10.1.3 The Isotope Effect 183 10.2 Some Theoretical Aspects 184 10.2.1 Phenomenological Theory 184 10.2.2 Microscopic BCS Theory 186 10.3 Experimental Detection of the Gap 192 10.4 Coherence of the Superconducting State 194 10.5 Type I and Type II Superconductors 196 10.6 High-Temperature Superconductivity 198 10.7 Concluding Remarks 199 10.8 Discussion and Problems 200 Ί 1 Finite Solids and Nanostructures 203 11.1 Quantum Confinement 204 11.2 Surfaces and Interfaces 206 11.3 Magnetism on the Nanoscale 208 11.4 Discussion and Problems 209 Appendix 211 References 215 Further Reading 217 Physical Constants and Energy Equivalents 219 Index 221
adam_txt	Contents Preface IX ì Chemical Bonding in Solids I 1.1 Attractive and Repulsive Forces 1 1.2 Ionic Bonding 2 1.3 Covalent Bonding 3 1.4 Metallic Bonding 5 1.5 Hydrogen Bonding 6 1.6 van der Waals Bonding 6 1.7 Discussion and Problems 7 2 Crystal Structures 9 2.1 General Description of Crystal Structures 9 2.2 Some Important Crystal Structures 11 2.2.1 Cubic Structures 11 2.2.2 Close-Packed Structures 13 2.2.3 Covalent Structures 14 2.3 Crystal Structure Determination 15 2.3.1 Х -Ray Diffraction ÍS 2.3.1.1 Bragg Theory 15 2.3.1.2 Lattice Planes and Miller Indices 16 2.3.1.3 General Diffraction Theory 17 2.3.1.4 The Reciprocal Lattice 19 2.3.1.5 The Meaning of the Reciprocal Lattice 20 2.3.1.6 Х -Ray Diffraction from Periodic Structures 22 2.3.1.7 The Ewald Construction 22 2.3.1.8 Relation Between Bragg and Laue Theory 23 2.3.2 Other Methods 24 2.3.3 Inelastic Scattering 24 2.4 Discussion and Problems 24 VI Contents 3 Mechanical Properties 29 3.1 Elastic Deformation 31 3.1.1 Macroscopic Picture 31 3.1.1.1 Elastic Constants 31 3.1.1.2 Poisson's Ratio 31 3.1.1.3 Relation Between Elastic Constants 33 3.1.2 Microscopic Picture 33 3.2 Plastic Deformation 35 3.2.1 Estimate of the Yield Stress 35 3.2.2 Point Defects and Dislocations 37 3.2.3 The Role of Defects in Plastic Deformation 38 3.2.4 Fracture 39 3.3 Discussion and Problems 40 4 Thermal Properties of the Lattice 43 4.1 Lattice Vibrations 43 4.1.1 A Simple Harmonic Oscillator 43 4.1.2 An Infinite Chain of Atoms 44 4.1.2.1 One Atom Per Unit Cell 44 4.1.2.2 The First Brillouin Zone 46 4.1.2.3 Two Atoms Per Unit Cell 47 4.1.3 A Finite Chain of Atoms 48 4.1.4 Quantized Vibrations, Phonons 50 4.1.5 Three-Dimensional Solids 51 4.1.5.1 Generalization to Three Dimensions 51 4.1.5.2 Estimation of the Vibrational Frequencies from the Elastic Constants 53 4.2 Heat Capacity of the Lattice 54 4.2.1 Classical Theory and Experimental Results 54 4.2.2 Einstein Model 55 4.2.3 Debye Model 58 4.3 Thermal Conductivity 62 4.4 Thermal Expansion 64 4.5 Allotropie Phase Transitions and Melting 66 4.6 Discussion and Problems 68 5 Electronic Properties of Metals: Classical Approach 71 5.1 Bask Assumptions of the Drude Model 71 5.2 Results from the Drude Model 73 5.2.1 DC Electrical Conductivity 73 S 2.2 Hall Effect 75 5.2.3 Optical Reflectivity of Metals 76 5.2.4 The Wiedemann-Franz Law 79 5.3 Shortcomings of the Drude Model 80 5.4 Discussion and Problems 81 Contents VII 6 Electronic Properties of Metals: Quantum Mechanical Approach 83 6.1 The Idea of Energy Bands 84 6.2 Free Electron Model 86 6.2.1 The Quantum Mechanical Eigenstates 86 6.2.2 Electronic Heat Capacity 90 6.2.3 The Wiedemann-Franz Law 92 6.2.4 Screening 92 6.3 The General Form of the Electronic States 93 6.4 Nearly Free Electron Model 96 6.5 Energy Bands in Real Solids 100 6.6 Transport Properties 104 6.7 Brief Review of Some Key Ideas 108 6.8 Discussion and Problems 109 7 Semiconductors 113 7.1 Intrinsic Semiconductors 114 7.1.1 Temperature Dependence of the Carrier Density 126 7.2 Doped Semiconductors 121 7.2.1 η and ρ Doping 121 7.2.2 Carrier Density 123 7.3 Conductivity of Semiconductors 125 7.4 Semiconductor Devices 126 7.4.1 The pn Junction 126 7.4.2 Transistors 130 7.43 Optoelectronic Devices 132 7.5 Discussion and Problems 133 8 Magnetism 137 8.1 Macroscopic Description 137 8.2 Magnetic Effects in Atoms 139 8.3 Weak Magnetism in Solids 143 8.3.1 Diamagnetism 244 8.3.1.1 Diamagnetism of the Ions 244 8.3.1.2 Diamagnetism of Free Electrons 144 8.3.2 Paramagnetism 144 8.3.2.1 Curie Paramagnetism 144 8.3.2.2 Pauli Paramagnetism 246 8.4 Magnetic Ordering 148 8.4.1 Magnetic Ordering and the Exchange Interaction 149 8.4.2 Temperature Dependence of the Ordering 152 8.4.3 Ferromagnetic Domains 154 8.4.4 Hysteresis 154 8.5 Discussion and Problems 256 VIII Contents 9 Dielectrics 161 9.1 Macroscopic Description 161 9.2 Microscopic Polarization 163 9.3 The Local Field 165 9.4 Frequency Dependence of the Dielectric Constant 166 9.5 Other Effects 171 9.5.1 Impurities in Dielectrics 171 9.5.2 Ferroelectricity 171 9.5.3 Piezoelectricity 173 9.5.4 Dielectric Breakdown 174 9.6 Discussion and Problems 174 10 Superconductivity 177 10.1 Basic Experimental Facts 178 10.1.1 Zero Resistivity 178 10.1.2 The Meissner Effect 181 10.1.3 The Isotope Effect 183 10.2 Some Theoretical Aspects 184 10.2.1 Phenomenological Theory 184 10.2.2 Microscopic BCS Theory 186 10.3 Experimental Detection of the Gap 192 10.4 Coherence of the Superconducting State 194 10.5 Type I and Type II Superconductors 196 10.6 High-Temperature Superconductivity 198 10.7 Concluding Remarks 199 10.8 Discussion and Problems 200 Ί 1 Finite Solids and Nanostructures 203 11.1 Quantum Confinement 204 11.2 Surfaces and Interfaces 206 11.3 Magnetism on the Nanoscale 208 11.4 Discussion and Problems 209 Appendix 211 References 215 Further Reading 217 Physical Constants and Energy Equivalents 219 Index 221
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title_full	Solid state physics an introduction Philip Hofmann
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title_short	Solid state physics
title_sort	solid state physics an introduction
title_sub	an introduction
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