Physics of nanoelectronics : transport and fluctuation phenomena at low temperatures / Tero T. Heikkilä

By:

Heikkilä, Tero T

Material type: Text

TextSeries: Oxford master series in condensed matter physics | Oxford master series in physics ; 21.Publication details: United Kingdom : Oxford University Press , 2013.Description: xv, 279 pages : illustrationsISBN:

9780199673490 (pbk.)

Subject(s):

Genre/Form:

Textbooks.

DDC classification:

621.38 22 HEI-T

Summary: Advances in nanotechnology have allowed physicists and engineers to miniaturize electronic structures to the limit where finite-size related phenomena start to impact their properties. This book discusses such phenomena and models made for their description. The book starts from the semiclassical description of nonequilibrium effects, details the scattering theory used for quantum transport calculations, and explains the main interference effects. It also describes how to treat fluctuations and correlations, how interactions affect transport through small islands, and how superconductivity modifies these effects. The last two chapters describe new emerging fields related with graphene and nanoelectromechanics. The focus of the book is on the phenomena rather than formalism, but the book still explains in detail the main models constructed for these phenomena. It also introduces a number of electronic devices, including the single-electron transistor, the superconducting tunnel junction refrigerator, and the superconducting quantum bit.--

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Holdings
Item type	Current library	Collection	Call number	Status	Date due	Barcode
Books	IISER Central Library Fifth Floor - Left Wing	Reference	621.38 HEI-T (Browse shelf(Opens below))	Checked out to Koustav Maitra (MS22146)	22/05/2024	0013710

Includes bibliographical references (pages 255-274) and index.

Advances in nanotechnology have allowed physicists and engineers to miniaturize electronic structures to the limit where finite-size related phenomena start to impact their properties. This book discusses such phenomena and models made for their description. The book starts from the semiclassical description of nonequilibrium effects, details the scattering theory used for quantum transport calculations, and explains the main interference effects. It also describes how to treat fluctuations and correlations, how interactions affect transport through small islands, and how superconductivity modifies these effects. The last two chapters describe new emerging fields related with graphene and nanoelectromechanics. The focus of the book is on the phenomena rather than formalism, but the book still explains in detail the main models constructed for these phenomena. It also introduces a number of electronic devices, including the single-electron transistor, the superconducting tunnel junction refrigerator, and the superconducting quantum bit.--

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