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Transport in Nanostructures (Revised)

Contributor(s): Ferry, David K (Author), Goodnick, Stephen M (Author), Bird, Jonathan (Author)

ISBN: 9780521877480

Publisher: Cambridge University Press

Hardcover
$131.00
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Pub Date: August 20, 2009

Dewey: 537.622

LCCN: 2009015597

Lexile Code: 0000

Features: Bibliography, Index, Maps

Target Age Group: NA to NA

Physical Info: 1.40" H x 9.80" L x 7.50" W ( 3.50 lbs) 670 pages

Descriptions, Reviews, etc.

Description: The advent of semiconductor structures whose characteristic dimensions are smaller than the mean free path of carriers has led to the development of novel devices, and advances in theoretical understanding of mesoscopic systems or nanostructures. This book has been thoroughly revised and provides a much-needed update on the very latest experimental research into mesoscopic devices and develops a detailed theoretical framework for understanding their behavior. Beginning with the key observable phenomena in nanostructures, the authors describe quantum confined systems, transmission in nanostructures, quantum dots, and single electron phenomena. Separate chapters are devoted to interference in diffusive transport, temperature decay of fluctuations, and non-equilibrium transport and nanodevices. Throughout the book, 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, and researchers working on semiconductor nanostructures.

Brief description: David Ferry is Regents' Professor in the Department of Electrical Engineering at Arizona State University. His areas of research include nanoelectronic devices, quantum transport, and nonequilibrium transport. He is a Fellow of the American Physical Society, the Institute of Electrical and Electronics Engineers, and of the Institute of Physics (UK).

Review Quotes: "This second edition is one of the most important works available on nanoscale physics and devices. It is a must for any student or researcher who works in this area."
Daniela Dragoman, Optics & Photonics News

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