Semiconductors :bonds and bands /

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"Version: 20191101"--Title page verso.Includes bibliographical references.1. Introduction -- 1.1. Multi-scale modeling in semiconductors -- 1.2. Building a planar MOSFET -- 1.3. Modern modifications -- 1.4. What is in this book?2. Electronic structure -- 2.1. Periodic potentials -- 2.2. Potentials and pseudopotentials -- 2.3. Real-space methods -- 2.4. Momentum space methods -- 2.5. The k [dot] p method -- 2.6. The effective mass approximation -- 2.7. Dielectric scaling theory -- 2.8. Semiconductor alloys -- 2.9. Hetero-structures -- 2.10. Surfaces -- 2.11. Some nanostructures3. Lattice dynamics -- 3.1. Lattice waves and phonons -- 3.2. Waves in deformable solids -- 3.3. Models for calculating phonon dynamics -- 3.4. Lattice contributions to the dielectric function -- 3.5. Alloy complications -- 3.6. Anharmoic forces and the phonon lifetime4. Semiconductor statistics -- 4.1. Electron density and the Fermi level -- 4.2. Deep levels -- 4.3. Disorder and localization5. Carrier scattering -- 5.1. The electron-phonon interaction -- 5.2. Acoustic deformation potential scattering -- 5.3. Piezoelectric scattering -- 5.4. Optical and intervalley scattering -- 5.5. Polar optical phonon scattering -- 5.6. Other scattering mechanisms6. Carrier transport -- 6.1. The Boltzmann transport equation -- 6.2. Rode's iterative approach -- 6.3. The effect of spin on transport7. High field transport -- 7.1. Physical observables -- 7.2. The ensemble Monte Carlo technique8. Optical properties -- 8.1. Free-carrier absorption -- 8.2. Direct transitions -- 8.3. Indirect transitions -- 8.4. Recombination9. The electron-electron interaction -- 9.1. The dielectric function -- 9.2. Screening in low-dimensional materials -- 9.3. Free-particle interelectronic scattering -- 9.4. Electron-plasmon scattering -- 9.5. Molecular dynamics .This second edition discusses the importance of semiconductors along with their newest applications. The book introduces the ever-changing field of semiconductors, before covering chapters on electronic structure, lattice dynamics, transport structures, optical properties and electron-electron interaction. This edition has been extensively updated with the addition of new chapters on statistics and optics, two expanded chapters on transport, and examples of the most recent applications of semiconductors. The book offers the deepest insight yet into the field of semiconductors, providing essential reading for graduate students and industry specialists.Graduate students studying for a PhD or MSc in semiconductor physics, electronics or photonics.Also available in print.Mode of access: World Wide Web.System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.David K. Ferry is a Regents' Professor Emeritus in the School of Electrical, Computer, and Energy Engineering at Arizona State University, Tempe, AZ. He is a Fellow of the American Physical Society, the Institute of Electrical and Electronics Engineers, and the Institute of Physics (UK). Professor Ferry researches nanostructure devices and quantum transport and has published more than 700 refereed journal articles.Title from PDF title page (viewed on December 9, 2019).

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Series Title

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Call Number

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Publisher

: .,

Collation

1 online resource (various pagings) :illustrations (some color).

Language

English

ISBN/ISSN

9780750324809

Classification

537.6/22

Content Type

-

Media Type

-

Carrier Type

-

Edition

Second edition.

Subject(s)

Semiconductors.
Solid state physics.
Electronic devices & materials.

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Statement of Responsibility

David K. Ferry.

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