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    Solid State Physics (Hardback) By (author) Neil W. Ashcroft, By (author) N. David Mermin

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    DescriptionThis book provides a comprehensive introduction to the field of solid state physics for undergraduate students in physics, chemistry, engineering, and materials science.


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  • Full bibliographic data for Solid State Physics

    Title
    Solid State Physics
    Authors and contributors
    By (author) Neil W. Ashcroft, By (author) N. David Mermin
    Physical properties
    Format: Hardback
    Number of pages: 848
    Width: 175 mm
    Height: 236 mm
    Thickness: 36 mm
    Weight: 1,362 g
    Language
    English
    ISBN
    ISBN 13: 9780030839931
    ISBN 10: 0030839939
    Classifications

    BIC E4L: SCI
    BIC subject category V2: PH
    Nielsen BookScan Product Class 3: S7.4
    BIC subject category V2: PHFC
    DC22: 530.41
    LC classification: QC176.A83
    LC subject heading:
    BISAC V2.8: SCI077000
    Thema V1.0: PHFC
    Publisher
    Cengage Learning, Inc
    Imprint name
    BROOKS/COLE
    Publication date
    01 February 1976
    Publication City/Country
    CA
    Review quote
    The Drude Theory of Metals. The Sommerfeld Theory of Metals. Failures of the Free Electron Model. Crystal Lattices. The Reciprocal Lattice. Determination of Crystal Structures by X-Ray Diffraction. Classification of Bravais Lattices and Crystal Structures. Electron levels in a Periodic Potential: General Properties. Electrons in a Weak Periodic Potential. The Tight-Binding Method. Other Methods for Calculating Band Structure. The Semiclassical Model of Electron Dynamics. The Semiclassical Theory of Conduction in Metals. Measuring the Fermi Surface. Band Structure of Selected Metals. Beyond the Relaxation. Time Approximation. Beyond the Independent Electron Approximation. Surface Effects. Classification of Solids. Cohesive Energy. Failures of the Static Lattice Model. Classical Theory of the Harmonic Crystal. Quantum Theory of the Harmonic Crystal. Measuring Phonon Dispersion Relations. Anharmonic Effects in Crystals. Phonons in Metals. Dielectric Properties of Insulators. Homogeneous Semiconductors. Inhomogeneous Semiconductors. Defects in Crystals. Diamagnetism and Paramagnetism. Electron Interactions and Magnetic Structure. Magnetic Ordering. Superconductivity. Appendices.
    Table of contents
    The Drude Theory of Metals. The Sommerfeld Theory of Metals. Failures of the Free Electron Model. Crystal Lattices. The Reciprocal Lattice. Determination of Crystal Structures by X-Ray Diffraction. Classification of Bravais Lattices and Crystal Structures. Electron levels in a Periodic Potential: General Properties. Electrons in a Weak Periodic Potential. The Tight-Binding Method. Other Methods for Calculating Band Structure. The Semiclassical Model of Electron Dynamics. The Semiclassical Theory of Conduction in Metals. Measuring the Fermi Surface. Band Structure of Selected Metals. Beyond the Relaxation. Time Approximation. Beyond the Independent Electron Approximation. Surface Effects. Classification of Solids. Cohesive Energy. Failures of the Static Lattice Model. Classical Theory of the Harmonic Crystal. Quantum Theory of the Harmonic Crystal. Measuring Phonon Dispersion Relations. Anharmonic Effects in Crystals. Phonons in Metals. Dielectric Properties of Insulators. Homogeneous Semiconductors. Inhomogeneous Semiconductors. Defects in Crystals. Diamagnetism and Paramagnetism. Electron Interactions and Magnetic Structure. Magnetic Ordering. Superconductivity. Appendices.