Book contents
- Frontmatter
- PREFACE
- PREFACE TO THE SECOND EDITION
- Contents
- Chapter 1 Periodic Structures
- Chapter 2 Lattice Waves
- Chapter 3 Electron States
- Chapter 4 Static Properties of Solids
- Chapter 5 Electron-Electron Interaction
- Chapter 6 Dynamics of Electrons
- Chapter 7 Transport Properties
- Chapter 8 Optical Properties
- Chapter 9 The Fermi Surface
- Chapter 10 Magnetism
- Chapter 11 Superconductivity
- Bibliography
- Index
Chapter 7 - Transport Properties
Published online by Cambridge University Press: 05 June 2013
- Frontmatter
- PREFACE
- PREFACE TO THE SECOND EDITION
- Contents
- Chapter 1 Periodic Structures
- Chapter 2 Lattice Waves
- Chapter 3 Electron States
- Chapter 4 Static Properties of Solids
- Chapter 5 Electron-Electron Interaction
- Chapter 6 Dynamics of Electrons
- Chapter 7 Transport Properties
- Chapter 8 Optical Properties
- Chapter 9 The Fermi Surface
- Chapter 10 Magnetism
- Chapter 11 Superconductivity
- Bibliography
- Index
Summary
There was no ‘One, two, three, and away’, but they began running when they liked and left off when they liked, so that it was not easy to know when the race was over.
LEWIS CARROLLThe Boltzmann equation
The carriers in a metal or semiconductor can be affected by external fields, and by temperature gradients. They also suffer scattering from impurities, lattice waves, etc. These effects have to be balanced against each other—we have to consider situations in which the electron is accelerated by a field, but loses its extra energy and momentum by scattering. In this chapter we shall consider the ‘Ordinary’ transport properties, such as are observed when constant fields are applied.
Much the simplest approach to this problem, in general, is to set up the transport equation or Boltzmann equation. We study a quantity fk(r), the local concentration of carrier in the state k in the neighbourhood of the point r in space. Strictly speaking, this quantity can only be defined in terms of fine-grained distributions, ensemble averages, density matrices, etc. There is a considerable literature upon this point—but it belongs more to the formal theory of quantum statistical mechanics than to the theory of solids.
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- Chapter
- Information
- Principles of the Theory of Solids , pp. 211 - 254Publisher: Cambridge University PressPrint publication year: 1972
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