Carrier Scattering in Metals and Semiconductors ( Volume 19 )

Publication series :Volume 19

Author: Gantmakher   V. F.;Levinson   Y. B.  

Publisher: Elsevier Science‎

Publication year: 2012

E-ISBN: 9780444598233

P-ISBN(Paperback): 9780444870254

P-ISBN(Hardback):  9780444870254

Subject: O48 solid physics

Language: ENG

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Description

The transport properties of solids, as well as the many optical phenomena in them are determined by the scattering of current carriers. ``Carrier Scattering in Metals and Semiconductors'' elucidates the state of the art in the research on the scattering mechanisms for current carriers in metals and semiconductors and describes experiments in which these mechanisms are most dramatically manifested.

The selection and organization of the material is in a form to prepare the reader to reason independently and to deal just as independently with available theoretical results and experimental data. The subjects dealt with include:
- electronic transport theory based on the test-particle and correlation-function concepts;
- scattering by phonons, impurities, surfaces, magnons, dislocations, electron-electron scattering and electron temperature;
- two-phonon scattering, spin-flip scattering, scattering in degenerate and many-band models.

Chapter

Front Cover

pp.:  1 – 4

Carrier Scattering in Metals and Semiconductors

pp.:  4 – 5

Copyright Page

pp.:  5 – 14

Preface to the series

pp.:  8 – 10

Preface

pp.:  10 – 20

Table of Contents

pp.:  14 – 8

Chapter 1. Quasi-Particles in an Ideal Crystal

pp.:  20 – 54

Chapter 2. Scattering

pp.:  54 – 82

Chapter 3. Electron–phonon interaction

pp.:  82 – 106

Chapter 4. Scattering by long-wavelength phonons in a simple band

pp.:  106 – 128

Chapter 5. Scattering by phonons in an anisotropic electron band

pp.:  128 – 151

Chapter 6. Electron–electron scattering and the electron temperature

pp.:  151 – 187

Chapter 7. Relaxation characteristics of kinetic effects

pp.:  187 – 220

Chapter 8. Two-phonon processes

pp.:  220 – 234

Chapter 9. Scattering by impurities

pp.:  234 – 260

Chapter 10. Scattering by dislocations

pp.:  260 – 272

Chapter 11. Scattering by a crystal surface

pp.:  272 – 294

Chapter 12. Scattering in a degenerate band and in a multiband model

pp.:  294 – 325

Chapter 13. Spin-flip induced by spin–orbit interaction

pp.:  325 – 359

Chapter 14. The effect of a magnetic field on scattering

pp.:  359 – 409

Chapter 15. Exchange and spin interaction

pp.:  409 – 445

Appendix: Parameters of certain semiconductor materials

pp.:  445 – 448

References

pp.:  448 – 456

Author index

pp.:  456 – 462

Subject index

pp.:  462 – 466

Materials index

pp.:  466 – 470

Cumulative index

pp.:  470 – 479

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