Mesoscopic Electronics in Solid State Nanostructures

Heinzel, Thomas

2. Edition November 2006
XV, 397 Pages, Softcover
228 Pictures
Textbook

ISBN: 978-3-527-40638-8

Wiley-VCH, Berlin

Short Description

This text treats electronic transport in the regime where conventional textbook models are no longer applicable, providing an introduction for students and beginning researchers in the field. This second edition is completely updated and expanded, and now includes new chapters on spin electronics and quantum information processing, transport in inhomogeneous magnetic fields, organic/molecular electronics, and applications of field effect transistors.

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Further versions

This text treats electronic transport in the regime where conventional textbook models are no longer applicable, including the effect of electronic phase coherence, energy quantization and single-electron charging. This second edition is completely updated and expanded, and now comprises new chapters on spin electronics and quantum information processing, transport in inhomogeneous magnetic fields, organic/molecular electronics, and applications of field effect transistors. The book also provides an overview of semiconductor processing technologies and experimental techniques. With a number of examples and problems with solutions, this is an ideal introduction for students and beginning researchers in the field.

"This book is a useful tool, too, for the experienced researcher to get a summary of recent developments in solid state nanostructures. I applaud the author for a marvellous contribution to the scientific community of mesoscopic electronics."
Prof. K. Ensslin, Solid State Physics Laboratory, ETH Zurich

An Update of Solid State Physics
Surfaces, Interfaces, and Layered Devices
Experimental Techniques
Important Quantities in Mesoscopic Transport
Magnetotransport Properties of Quantum Films
Quantum Wires and Quantum Point Contacts
Electronic Phase Coherence
Single Electron Tunneling
Quantum Dots
Mesoscopic Superlattices
Spintronics

Thomas Heinzel received his Ph.D. from the University of Munich in 1994. He subsequently joined the University of Pennsylvania, Philadelphia, for two years. From 1996 to 2001, he worked at the ETH Zurich, where he received his habilitation. From 2001 to 2004, Professor Heinzel held a professorship in experimental physics at the University of Freiburg, after which he accepted a post as professor of experimental physics of condensed matter at the University of Düsseldorf, both in Germany. His current research interests are electrons in nanostructured as well as in self-organized materials.

T. Heinzel, Heinrich Heine University Dusseldorf, Germany