Waves represent a classic topic of study in physics, mathematics, and engineering. Many modern technologies are based on our understanding of waves and their interaction with matter. In the past thirty years there have been some revolutionary developments in the study of waves. The present volume is the only available source which details these developments in a systematic manner, with the aim of reaching a broad audience of non-experts. It is an important resource book for those interested in understanding the physics underlying nanotechnology and mesoscopic phenomena, as well as for bridging the gap between the textbooks and research frontiers in any wave related topic. A special feature of this volume is the treatment of classical and quantum mechanical waves within a unified framework, thus facilitating an understanding of similarities and differences between the two.

This book collects selected lectures from the Third Workshop of the Croucher Advanced Study Institute on Nano Science and Technology, and showcases contributions from world-renowned researchers. The book presents in-depth articles on the latest developments in nanomaterials and nanotechnology, and provides a cross-disciplinary perspective covering physics and biophysics, chemistry, materials science, and engineering.

Widespread use of parallel processing will become a reality only if the process of porting applications to parallel computers can be largely automated. Usually it is straightforward for a user to determine how an application can be mapped onto a parallel machine; however, the actual development of parallel code, if done by hand, is typically difficult and time consuming. Parallelizing compilers, which can gen erate parallel code automatically, are therefore a key technology for parallel processing. In this book, Ping-Sheng Tseng describes a parallelizing compiler for systolic arrays, called AL. Although parallelizing compilers are quite common for shared-memory parallel machines, the AL compiler is one of the first working parallelizing compilers for distributed memory machines, of which systolic arrays are a special case. The AL compiler takes advantage of the fine grain and high bandwidth interprocessor communication capabilities in a systolic architecture to generate efficient parallel code. xii Foreword While capable of handling an important class of applications, AL is not intended to be a general-purpose parallelizing compiler."

Nanoscience and technology is a rapidly developing area of research in physics, chemistry and materials. This volume comprises of papers presented at the Advanced Study Institute in Hong Kong and is a timely pubication of developments in novel structures in phenomena of nanostructured materials. The topics include:

* two dimensional nanoclusters on metal surfaces
* quantum dynamics of coupled quantum-dot qubits and dephasing effects induced by measurements
* coating of metal oxides onto surface of mesoporous silicas
* synthesis of boron nitride nanotube array

The volume is a useful source of reference for postgraduates, professionals and researchers in nanoscience and technology.

eBook available with sample pages: 0203390288

Widespread use of parallel processing will become a reality only if the process of porting applications to parallel computers can be largely automated. Usually it is straightforward for a user to determine how an application can be mapped onto a parallel machine; however, the actual development of parallel code, if done by hand, is typically difficult and time consuming. Parallelizing compilers, which can gen erate parallel code automatically, are therefore a key technology for parallel processing. In this book, Ping-Sheng Tseng describes a parallelizing compiler for systolic arrays, called AL. Although parallelizing compilers are quite common for shared-memory parallel machines, the AL compiler is one of the first working parallelizing compilers for distributed memory machines, of which systolic arrays are a special case. The AL compiler takes advantage of the fine grain and high bandwidth interprocessor communication capabilities in a systolic architecture to generate efficient parallel code. xii Foreword While capable of handling an important class of applications, AL is not intended to be a general-purpose parallelizing compiler."

to Wave Scattering, Localization and Mesoscopic Phenomena Second Edition With 72 Figures 123 ProfessorPingSheng Hong Kong University of Science and Technology, Department of Physics Clear Water Bay, Kowloon, Hong Kong E-mail: sheng@ust. hk Series Editors: ProfessorRobertHull Professor Jurgen Parisi ] University of Virginia Universitat Oldenburg, Fachbereich Physik Dept. of Materials Science and Engineering Abt. Energie- und Halbleiterforschung Thornton Hall Carl-von-Ossietzky-Strasse 9-11 Charlottesville, VA 22903-2442, USA 26129 Oldenburg, Germany ProfessorR. M. Osgood, Jr. Professor Hans Warlimont Microelectronics Science Laboratory Institut fur ] Festkor ] per- Department of Electrical Engineering und Werkstofforschung, Columbia University Helmholtzstrasse 20 Seeley W. Mudd Building 01069 Dresden, Germany New York, NY 10027, USA ISSN 0933-033X ISBN-10 3-540-29155-5 Springer Berlin Heidelberg New York ISBN-13 978-3-540-29155-8 Springer Berlin Heidelberg New York LibraryofCongressControlNumber: 2006925436 This work is subject to copyright. All rights are reserved, whether the whole or part of the material is concerned, specif ically the rights of translation, reprinting, reuse of illustrations, recitation, broadcasting, reproductiononmicrof ilmorinanyotherway, andstorageindatabanks. Duplicationofthispublicationor parts thereof is permitted only under the provisions of the German Copyright Law of September 9, 1965, in its current version, and permission for use must always be obtained from Springer. Violations are liable to prosecution under the German Copyright Law. Springer is a part of Springer Science+Business Media. springeronline. com (c) Springer-Verlag Berlin Heidelberg 2006 Printed in Germany The use of general descriptive names, registered names, trademarks, etc."

The past decade has witnessed breakthroughs in the understanding of the wave localization phenomena and its implications for wave multiple scattering in inhomogeneous media. This book brings together review articles written by noted researchers in this field in a tutorial manner so as to give the readers a coherent picture of its status. It would be valuable both as an up-to-date reference for active researchers as well as a readable source for students looking to gain an understanding of the latest results.

The MRS Symposium Proceeding series is an internationally recognised reference suitable for researchers and practitioners.

This volume consists of papers presented at the Advanced Study Institute in Hong Kong that explore developments in novel structures in phenomena of nanostructured materials, reflecting the rapid growth of nano science and technology in physics, chemistry, and medicine. The topics include two-dimensional nanoclusters on metal surfaces, quantum dynamics of coupled quantum-dot cubits and dephasing effects induced by measurements, coating of metal oxides onto surface of mesoporous silicas, and synthesis of boron nitride nanotube arrays. Nano Science and Technology: Novel Structures and Phenomena is a useful source of reference for postgraduates, professionals, and researchers in this fast growing field.