National Science Library of Georgia

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Transport in nanostructures / David K. Ferry and Stephen M. Goodnick.

By: Contributor(s): Material type: TextTextSeries: Cambridge studies in semiconductor physics and microelectronic engineering ; 6.Publisher: Cambridge : Cambridge University Press, 1997Description: 1 online resource (xi, 512 pages) : digital, PDF file(s)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9780511626128 (ebook)
Subject(s): Additional physical formats: Print version: : No titleDDC classification:
  • 537.6/22 21
LOC classification:
  • QC176.8.N35 F47 1997
Online resources: Summary: This book reviews the results of experimental research into mesoscopic devices, and develops a detailed theoretical framework for understanding their behaviour. The authors begin by discussing the key observable phenomena in nanostructures, including phase interference and weak localization. They then describe quantum confined systems, transmission in nanostructures, quantum dots and single electron phenomena. Separate chapters are devoted to interference in diffusive transport and temperature decay of fluctuations, and the book concludes with a chapter on non-equilibrium transport and nanodevices. Throughout, the authors interweave experimental results with the appropriate theoretical formalism. The book will be of great interest to graduate students taking courses in mesoscopic physics or nanoelectronics, as well as to anyone working on semiconductor nanostructures or the development of new ultrasmall devices.
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Title from publisher's bibliographic system (viewed on 05 Oct 2015).

This book reviews the results of experimental research into mesoscopic devices, and develops a detailed theoretical framework for understanding their behaviour. The authors begin by discussing the key observable phenomena in nanostructures, including phase interference and weak localization. They then describe quantum confined systems, transmission in nanostructures, quantum dots and single electron phenomena. Separate chapters are devoted to interference in diffusive transport and temperature decay of fluctuations, and the book concludes with a chapter on non-equilibrium transport and nanodevices. Throughout, the authors interweave experimental results with the appropriate theoretical formalism. The book will be of great interest to graduate students taking courses in mesoscopic physics or nanoelectronics, as well as to anyone working on semiconductor nanostructures or the development of new ultrasmall devices.

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