| Periodic Structures / Chapter 1.: |
| Translational symmetry / 1.1: |
| Periodic functions / 1.2: |
| Properties of the reciprocal lattice / 1.3: |
| Bloch's theorem / 1.4: |
| Reduction to a Brillouin zone / 1.5: |
| Boundary conditions: counting states / 1.6: |
| Lattice Waves / Chapter 2.: |
| Lattice dynamics / 2.1: |
| Properties of lattice waves / 2.2: |
| Lattice sums / 2.3: |
| Lattice specific heat / 2.4: |
| Lattice spectrum / 2.5: |
| Diffraction by an ideal crystal / 2.6: |
| Diffraction by crystal with lattice vibrations / 2.7: |
| Phonons / 2.8: |
| The Debye--Waller factor / 2.9: |
| Anharmonicity and thermal expansion / 2.10: |
| Phonon--phonon interactio / 2.11: |
| Vibrations of imperfect lattices / 2.12: |
| Electron States / Chapter 3.: |
| Free electrons / 3.1: |
| Diffraction of valence electrons / 3.2: |
| The nearly-free-electron model / 3.3: |
| The tight-binding method / 3.4: |
| Cellular methods / 3.5: |
| Orthogonalized plane waves / 3.6: |
| Augmented plane waves / 3.7: |
| The Green function method / 3.8: |
| Model pseudo-potentials / 3.9: |
| Resonance bands / 3.10: |
| Crystal symmetry and spin-orbit interaction / 3.11: |
| Static Properties of Solids / Chapter 4.: |
| Types of solid: band picture / 4.1: |
| Types of solid: bond picture / 4.2: |
| Cohesion / 4.3: |
| Rigid band model and density of states / 4.4: |
| Fermi statistics of electrons / 4.5: |
| Statistics of carriers in a semiconductor / 4.6: |
| Electronic specific heat / 4.7: |
| Electron--Electron Interaction / Chapter 5.: |
| Perturbation formulation / 5.1: |
| Static screening / 5.2: |
| Screened impurities and neutral pseudo-atoms / 5.3: |
| The singularity in the screening: Kohn effect / 5.4: |
| The Friedel sum rule / 5.5: |
| Dielectric constant of a semiconductor / 5.6: |
| Plasma oscillations / 5.7: |
| Quasi-particles and cohesive energy / 5.8: |
| The Mott transition / 5.9: |
| Dynamics of Electrons / Chapter 6.: |
| General principles / 6.1: |
| Wannier functions / 6.2: |
| Equations of motion in the Wannier representation / 6.3: |
| The equivalent Hamiltonian: impurity levels / 6.4: |
| Quasi-classical dynamics / 6.5: |
| The mass tensor: electrons and holes / 6.6: |
| Excitons / 6.7: |
| Zener breakdown: tunnelling / 6.8: |
| Electrons at a surface / 6.9: |
| Scattering of electrons by impurities / 6.10: |
| Adiabatic principle / 6.11: |
| Renormalization of velocity of sound / 6.12: |
| The electron--phonon interaction / 6.13: |
| Deformation potentials / 6.14: |
| Transport Properties / Chapter 7.: |
| The Boltzmann equation / 7.1: |
| Electrical conductivity / 7.2: |
| Calculation of relaxation time / 7.3: |
| Impurity scattering / 7.4: |
| 'Ideal' resistance / 7.5: |
| Carrier mobility / 7.6: |
| General transport coefficients / 7.7: |
| Thermal conductivity / 7.8: |
| Thermo-electric effects / 7.9: |
| Lattice conduction / 7.10: |
| Phonon drag / 7.11: |
| The Hall effect / 7.12: |
| The two-band model magneto-resistance / 7.13: |
| Optical Properties / Chapter 8.: |
| Macroscopic theory / 8.1: |
| Dispersion and absorption / 8.2: |
| Optical modes in ionic crystals / 8.3: |
| Photon--phonon transitions / 8.4: |
| Interband transitions / 8.5: |
| Interaction with conduction electrons / 8.6: |
| The anomalous skin effect / 8.7: |
| Ultrasonic attenuation / 8.8: |
| The Fermi Surface / Chapter 9.: |
| High magnetic fields / 9.1: |
| Cyclotron resonance / 9.2: |
| High-field magneto-resistance / 9.3: |
| Open orbits / 9.4: |
| Magneto-acoustic oscillations / 9.5: |
| Quantization of orbits / 9.6: |
| The de Haas--van Alphen effect / 9.7: |
| Magneto-optical absorption / 9.8: |
| Magnetic breakdown / 9.9: |
| Magnetism / Chapter 10.: |
| Orbital magnetic susceptibility / 10.1: |
| Spin paramagnetism / 10.2: |
| The Curie--Weiss Law and ferromagnetism / 10.3: |
| Exchange interaction / 10.4: |
| Band ferromagnetism / 10.5: |
| Magnetic impurities / 10.6: |
| Antiferromagnetism / 10.7: |
| The Ising model / 10.8: |
| Combinatorial method / 10.9: |
| Exact solutions of the Ising problem / 10.10: |
| Spin waves / 10.11: |
| The antiferromagnetic ground state / 10.12: |
| Superconductivity / Chapter 11.: |
| The attraction between electrons / 11.1: |
| Cooper pairs / 11.2: |
| The superconducting ground state / 11.3: |
| Quasi-particles and the energy gap / 11.4: |
| Temperature dependence of the energy gap / 11.5: |
| Persistent currents / 11.6: |
| The London equation / 11.7: |
| The coherence length / 11.8: |
| Off-diagonal long range order / 11.9: |
| Superconducting junctions / 11.10: |
| Type II material / 11.11: |
| Bibliography |
| Index |
| Periodic structure / 1: |
| Lattice waves / 2: |
| Electron states / 3: |
| Static properties of solids / 4: |
| Electron-electron interaction / 5: |
| Dynamics of electrons / 6: |
| Transport properties / 7: |
| Optical properties / 8: |
| The fermi surface / 9: |
| Periodic Structures / Chapter 1.: |
| Translational symmetry / 1.1: |
| Periodic functions / 1.2: |
図書
