Nanotechnology
Volume 3: Information Technology I
1st Edition
Published on 14. May 2008
Book
Hardback
XXII, 541 pages
978-3-527-31738-7 (ISBN)
Description
This authoritative reference addresses IT applications of nanotechnology, specifically computer memory and how the technology can be miniaturised. Aimed at students of physics, electrical engineering and IT, but also of interest to professionals wanting a broader overview.
All prices
More details
Series
Edition
1. Auflage
Language
English
Place of publication
Berlin
Germany
Target group
Professional and scholarly
Illustrations
266
70 farbige Abbildungen, 266 s/w Abbildungen
Dimensions
Height: 24 cm
Width: 17 cm
Thickness: 3.3 cm
Weight
1230 gr
ISBN-13
978-3-527-31738-7 (9783527317387)
Schweitzer Classification
Other editions
Complete work / Part of the work
Book
approx. 01/2030
1st Edition
Wiley-VCH
€1,161.00
The article will not be published
Person
Rainer Waser is Professor at the faculty for Electrical Engineering and Information Technology of the RWTH Aachen University and director at the Institute of Solid State Research (IFF) at the HGF Research Center Jülich, Germany.
In 1984, he received his PhD in physical chemistry at the University of Darmstadt, and worked at the Philips Research Laboratory, Aachen, until he was appointed professor in 1992.
His research group is focused on fundamental aspects of electronic materials and on such integrated devices as non-volatile memories, specifically ferroelectric and resistive memories, logic devices, sensors and actuators. Throughout, he has been collaborating with major semiconductor industries in Europe, the US, and the Far East. He is member of the Emerging Research Devices working group of the ITRS.
He has organized several international conferences, published about 250 technical papers and holds ten patents. Among others, he has edited the book Nanoelectronics and Information Technology - Advanced Electronic Materials and Novel Devices, which has been published in 2003 by Wiley Inc.
Since 2002, he has been the coordinator of the research program Nanoelectronic Systems within the Germany National Research Centers (Helmholtz Association). In 2007, he has been co-founded of the Jülich-Aachen Research Alliance, section Fundamentals of Future Information Technology (JARA-FIT).
In 1984, he received his PhD in physical chemistry at the University of Darmstadt, and worked at the Philips Research Laboratory, Aachen, until he was appointed professor in 1992.
His research group is focused on fundamental aspects of electronic materials and on such integrated devices as non-volatile memories, specifically ferroelectric and resistive memories, logic devices, sensors and actuators. Throughout, he has been collaborating with major semiconductor industries in Europe, the US, and the Far East. He is member of the Emerging Research Devices working group of the ITRS.
He has organized several international conferences, published about 250 technical papers and holds ten patents. Among others, he has edited the book Nanoelectronics and Information Technology - Advanced Electronic Materials and Novel Devices, which has been published in 2003 by Wiley Inc.
Since 2002, he has been the coordinator of the research program Nanoelectronic Systems within the Germany National Research Centers (Helmholtz Association). In 2007, he has been co-founded of the Jülich-Aachen Research Alliance, section Fundamentals of Future Information Technology (JARA-FIT).
Content
Phase Coherent States (T. Schäpers)
Transport through Nanostructures and Single Electron Effects (H. van der Zant, J. Thijssen)
Spin Injection and Spin Dependent Transport (A. M. Bratkovsky)
Physical Limits to Computation (V. Zhirnov, R. Cavin)
Ion Beam and Electron Beam Projection Lithography (L. Berger)
Extreme Ultraviolet Lithography (K. Bergmann)
Non-Optical Lithography (C. M. Sotomayor Torres)
Atomic and Molecular Manipulation (A. A. G. Requicha)
DNA-templated Self-Assembly of Nanoelectronic Systems (U. Sivan)
Self-Assembly and Self-Organization Processes (B. Voigtländer, U.Simon, S. Karthäuser, M. Homberger)
Flash-Type Memories (T. Mikolajick)
Dynamic RAM (F. Horiguchi)
Ferroelectric RAM (S. Oh Park, B.-J. Bae, D. Chul Yoo, U-I. Chung)
Magnetoresistive RAM (M. Gaidis)
Phase Change RAM (D. Wouters, A. Lacaita)
Electrochemical Metallization RAM (M. Kozicki, M. Mitkova)
Transport through Nanostructures and Single Electron Effects (H. van der Zant, J. Thijssen)
Spin Injection and Spin Dependent Transport (A. M. Bratkovsky)
Physical Limits to Computation (V. Zhirnov, R. Cavin)
Ion Beam and Electron Beam Projection Lithography (L. Berger)
Extreme Ultraviolet Lithography (K. Bergmann)
Non-Optical Lithography (C. M. Sotomayor Torres)
Atomic and Molecular Manipulation (A. A. G. Requicha)
DNA-templated Self-Assembly of Nanoelectronic Systems (U. Sivan)
Self-Assembly and Self-Organization Processes (B. Voigtländer, U.Simon, S. Karthäuser, M. Homberger)
Flash-Type Memories (T. Mikolajick)
Dynamic RAM (F. Horiguchi)
Ferroelectric RAM (S. Oh Park, B.-J. Bae, D. Chul Yoo, U-I. Chung)
Magnetoresistive RAM (M. Gaidis)
Phase Change RAM (D. Wouters, A. Lacaita)
Electrochemical Metallization RAM (M. Kozicki, M. Mitkova)