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Electrons in Metals and Semiconductors

  • Book
  • © 1990

Overview

Authors:
  1. R. G. Chambers

    1. University of Bristol, UK

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Part of the book series: Physics and Its Applications (PHAP)

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Table of contents (15 chapters)

  1. Front Matter

    Pages i-vii
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  2. The Free-Electron Model

    • R. G. Chambers
    Pages 1-15

  3. Properties of Free-Electron Solids

    • R. G. Chambers
    Pages 16-34

  4. Crystal Structures and the Reciprocal Lattice

    • R. G. Chambers
    Pages 35-45

  5. Electrons in a periodic potential

    • R. G. Chambers
    Pages 46-59

  6. Electronic Band Structures

    • R. G. Chambers
    Pages 60-74

  7. The potential V(r); many-body effects

    • R. G. Chambers
    Pages 75-84

  8. The dynamics of Bloch electrons

    • R. G. Chambers
    Pages 85-106

  9. Collisions

    • R. G. Chambers
    Pages 107-119

  10. Electrical conductivity of metals

    • R. G. Chambers
    Pages 120-132

  11. Metals in a Temperature Gradient

    • R. G. Chambers
    Pages 133-145

  12. Magnetoresistance and Hall Effect

    • R. G. Chambers
    Pages 146-160

  13. Radio-Frequency, Optical and Other Properties

    • R. G. Chambers
    Pages 161-174

  14. Carriers in Semiconductors

    • R. G. Chambers
    Pages 175-185

  15. Transport Properties of Semiconductors

    • R. G. Chambers
    Pages 186-202

  16. Other topics

    • R. G. Chambers
    Pages 203-206

  17. Back Matter

    Pages 207-230
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Keywords

About this book

Solid-state physics has for many years been one of the largest and most active areas of research in physics, and the physics of metals and semiconductors has in turn been one of the largest and most active areas in solid-state physics. Despite this, it is an area in which new and quite unexpected phenomena - such as the quantum Hall effect - are still being discovered, and in which many things are not yet fully understood. It forms an essential part of any undergraduate physics course. A number of textbooks on solid-state physics have appeared over the years and, because the subject has now grown so large, the books too have usually been large. By aiming at a more limited range of topics, I have tried in this book to cover them within a reasonably small compass. But I have also tried to avoid the phrase 'It can be shown that. . . ', as far as possible, and instead to explain to the reader just why things are the way they are; and sometimes this takes a little longer. I hope that some readers at least will find this approach helpful. 1 The free-electron model 1. 1 THE CLASSICAL DRUDE THEORY The characteristic properties of metals and semiconductors are due to their conduction electrons: the electrons in the outermost atomic shells, which in the solid state are no longer bound to individual atoms, but are free to wander through the solid.

Authors and Affiliations

  • University of Bristol, UK

    R. G. Chambers

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