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Electrons and phonons in semiconductor multilayers / B.K. Ridley.

By: Material type: TextTextSeries: Cambridge studies in semiconductor physics and microelectronic engineering ; 5.Publisher: Cambridge : Cambridge University Press, 1997Description: 1 online resource (xx, 330 pages) : digital, PDF file(s)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9780511529344 (ebook)
Other title:
  • Electrons & Phonons in Semiconductor Multilayers
Subject(s): Additional physical formats: Print version: : No titleDDC classification:
  • 537.6/226 20
LOC classification:
  • QC611.6.S9 R54 1997
Online resources: Summary: This book provides a detailed description of the quantum confinement of electrons and phonons in semiconductor wells, superlattices and quantum wires, and shows how this affects their mutual interactions. The transition from microscopic to continuum models is discussed, emphasising the use of quasi-continuum theory to describe the confinement of optical phonons and electrons. The hybridisation of optical phonons and their interactions with electrons are treated in detail, as are other electron scattering mechanisms. The book concludes with an account of the electron distribution function in three-, two- and one-dimensional systems, in the presence of electrical or optical excitation. The book will be of great use to graduate students and researchers investigating low-dimensional semiconductor structures, as well as to those developing new devices based on such systems.
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Title from publisher's bibliographic system (viewed on 05 Oct 2015).

This book provides a detailed description of the quantum confinement of electrons and phonons in semiconductor wells, superlattices and quantum wires, and shows how this affects their mutual interactions. The transition from microscopic to continuum models is discussed, emphasising the use of quasi-continuum theory to describe the confinement of optical phonons and electrons. The hybridisation of optical phonons and their interactions with electrons are treated in detail, as are other electron scattering mechanisms. The book concludes with an account of the electron distribution function in three-, two- and one-dimensional systems, in the presence of electrical or optical excitation. The book will be of great use to graduate students and researchers investigating low-dimensional semiconductor structures, as well as to those developing new devices based on such systems.

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