 Quantum Theory of Solids, 2nd Revised Edition
ISBN: 978-0-471-62412-7
Paperback
528 pages
April 1987
US $83.95
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Mathematical Introduction.
Acoustic Phonons.
Plasmons, Optical Phonons, and Polarization Waves.
Magnons.
Fermion Fields and the Hartree-Forck Approximation.
Many-Body Techniques and the Electron Gas.
Polarons and the Electron-Phonon Interaction.
Superconductivity.
Bloch Funcations--General Properties.
Brillouin Zones and Crystal Symmetry.
Dynamics of Electronics in a Magnetic Field: de Hass-van Alphen Effect and Cyclotron Resonance.
Magnetoresistance.
Calculation of Energy Bands and Fermi Surfaces.
Semiconductor Crystals: I. Energy Bands, Cyclotron Resonance and Impurity States.
Semiconductor Crystals: II.
Optical Absorption and Excitons.
Electrodynamics of Metals.
Acoustic Attenuation in Metals.
Theory of Alloys.
Correlation Functions and Neutron Diffraction by Crystals.
Recoilless Emission.
Green's Functions--Application to Solid State Physics.
Appendixes.
Acoustic Phonons.
Plasmons, Optical Phonons, and Polarization Waves.
Magnons.
Fermion Fields and the Hartree-Forck Approximation.
Many-Body Techniques and the Electron Gas.
Polarons and the Electron-Phonon Interaction.
Superconductivity.
Bloch Funcations--General Properties.
Brillouin Zones and Crystal Symmetry.
Dynamics of Electronics in a Magnetic Field: de Hass-van Alphen Effect and Cyclotron Resonance.
Magnetoresistance.
Calculation of Energy Bands and Fermi Surfaces.
Semiconductor Crystals: I. Energy Bands, Cyclotron Resonance and Impurity States.
Semiconductor Crystals: II.
Optical Absorption and Excitons.
Electrodynamics of Metals.
Acoustic Attenuation in Metals.
Theory of Alloys.
Correlation Functions and Neutron Diffraction by Crystals.
Recoilless Emission.
Green's Functions--Application to Solid State Physics.
Appendixes.
