Condensed Matter Physics in the Prime of the 21st Century Downloaded from www.worldscientific.com Condensed Matter Physics in the Prime of the 21st Century Phenomena, Materials, Ideas, Methods
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43rd Karpacz Winter School of Theoretical Physics Condensed Matter Physics in the Prime of the 21st Century Downloaded from www.worldscientific.com Condensed Matter Physics in the Prime of the 21st Century Phenomena, Materials, Ideas, Methods L adek Zdrój, Poland 5 11 February 2007 editor Janusz Jȩdrzejewski University of Wrocław, Poland World Scientific NEW JERSEY LONDON SINGAPORE BEIJING SHANGHAI HONG KONG TAIPEI CHENNAI
Published by World Scientific Publishing Co. Pte. Ltd. 5 Toh Tuck Link, Singapore 596224 USA office: 27 Warren Street, Suite 401-402, Hackensack, NJ 07601 UK office: 57 Shelton Street, Covent Garden, London WC2H 9HE Condensed Matter Physics in the Prime of the 21st Century Downloaded from www.worldscientific.com British Library Cataloguing-in-Publication Data A catalogue record for this book is available from the British Library. CONDENSED MATTER PHYSICS IN THE PRIME OF THE 21ST CENTURY Phenomena, Materials, Ideas, Methods Copyright 2008 by World Scientific Publishing Co. Pte. Ltd. All rights reserved. This book, or parts thereof, may not be reproduced in any form or by any means, electronic or mechanical, including photocopying, recording or any information storage and retrieval system now known or to be invented, without written permission from the Publisher. For photocopying of material in this volume, please pay a copying fee through the Copyright Clearance Center, Inc., 222 Rosewood Drive, Danvers, MA 01923, USA. In this case permission to photocopy is not required from the publisher. ISBN-13 978-981-270-944-8 ISBN-10 981-270-944-4 Printed in Singapore.
Condensed Matter Physics in the Prime of the 21st Century Downloaded from www.worldscientific.com PREFACE The Winter Schools of Theoretical Physics in Karpacz (or briefly, Karpacz Winter Schools) are now well known in the world community of physicists as scientific and cultural events that have been created by a few generations of theoretical physicists from the University of Wroc law, Poland. The Schools have been organized by the Institute of Theoretical Physics of the University of Wroc law (ITP UWr) annually for 44 years. Only once, in February 1982, did the School, being at its final stage of organization, have to be canceled because of the martial law imposed in Poland two months earlier. Till the early nineties of the 20th century, the Schools served as a meeting ground for physicists from West and East and were held at University houses in Karpacz (Sudeten Mountains). For many researchers and physics students in Poland and other Eastern Block countries, they offered a unique opportunity to discuss physics with outstanding scientists including Nobel Prize winners from Western Europe, both Americas, Japan and the Soviet Union. For more information about the Karpacz Winter Schools, the reader is invited to consult the ITP UWr web page (www.ift.uni.wroc.pl). Reflecting diverse research directions pursued by members of ITP UWr, the topics of the Schools have been varied, almost periodically, from the physics of elementary particles and high energy physics to mathematical physics and field theory to condensed matter physics and statistical physics. Also the character of the Schools has varied, oscillating between a conference with many specialized talks addressed to advanced researchers, and a school with lectures addressed to young adepts of physics. The 43rd School, entitled Condensed Matter Physics in the Prime of XXI Century: Phenomena, Materials, Ideas, Methods was held at L adek Zdrój, Poland (one of the recent substitutes for Karpacz), between 5th and 11th February 2007. It was designed and organized by representatives of the three largest institutions in Wroc law that educate and employ physicists: Janusz Jȩdrzejewski (University of Wroc law), Romuald Lemański (Institute of Low Temperature and Structure Research of the Polish Academy of Sciences), and Arkadiusz Wójs (Wroc law University of v
vi Preface Condensed Matter Physics in the Prime of the 21st Century Downloaded from www.worldscientific.com Technology). This team was joined by Manuel Richter (Leibniz-Institut für Festkörper- und Werkstoffforschung Dresden e.v.) from neighbouring Dresden, Germany. As planned, the 43rd School was a genuine school. The lectures delivered by 13 lecturers renowned specialists were organized into coherent series of a few talks per topic. A number of modern, promising, dynamicallydeveloping research directions in condensed matter physics were presented to participants. The topics included: dynamical mean-field theory, density functional theory, quantum spin models, frustrated quantum magnets, quantum dots, quantum gates, spintronics, carbon nanostructures, thermal transport, and warm dense matter. This volume constitutes a collection of articles written by 11 lecturers, specialists in a number of modern, promising, dynamically-developing research directions in condensed matter/solid state theory. The lectures are concerned with phenomena, materials and ideas, discussing theoretical and experimental features, as well as with methods of calculations. It should be emphasized that the lectures are addressed primarily to young researchers. Due to the style of presentation and extensive lists of references, the lectures should prove helpful in acquainting oneself with the subjects discussed in this volume. Concerning methods, the reader will find up-todate presentations of methods of carrying out efficient calculations for electronic systems (most powerful, versatile and rapidly developing methods of dynamical mean-field theory, density-functional theory, finite frequency theory for thermoelectric transport) and quantum spin systems (Jordan- Wigner fermionization, localized-magnon and localized-electron states in frustrated lattices), together with applications in describing phenomena and designing new materials. Concerning phenomena and materials, systems of quantum dots, quantum gates, semiconductor materials for spintronics, and last but not least, unusual characteristics of warm dense matter, are neatly discussed. One of the lecturers, professor Bengt Lundqvist (Göteborg, Sweden), who delivered lectures entitled Density-Functional Theory of Dense and Sparse Matter has kindly sent us pdf files of his lecture notes with a permission to display them at the School s web page. I am grateful to my younger colleagues from ITP UWr, who undertook the burden of dealing with: financial matters, Dr. Artur Duda; the School s correspondence, Dr. Volodymyr Derzhko; WLAN at the School s site, Mr Szymon Owczarek; the School s web page, Mr Lukasz Andrzejewski.
Preface vii Condensed Matter Physics in the Prime of the 21st Century Downloaded from www.worldscientific.com It is my pleasure to thank professors David Blaschke and Zygmunt Petru from ITP UWr for their invaluable advice at various stages of the organization process. Of course no school can be organized without financial means. The organizers are particularly grateful to our traditional and generous sponsors of Karpacz Winter Schools: the University of Wroc law and the Committee on Physics of the Polish Academy of Sciences. Financial support from the Institute of Low Temperature and Structure Research of the Polish Academy of Sciences (Wroc law) and of the Institute of Physics of the Wroc law University of Technology is gratefully acknowledged. In the name of all the organizers, I take the opportunity to thank once more all the lecturers for their excellent lectures and for writing articles to this volume. I express my sincere thanks to all the participants from various research institutions in Europe for creating the ambiance of the School. This volume, the School s poster and badges, as in numerous previous Schools, have been prepared in camera-ready form by Mrs Anna Jadczyk, to whom the organizers address special thanks. Janusz Jȩdrzejewski Head of the Organizing Committee XLIII Karpacz Winter School of Theoretical Physics
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ORGANIZING COMMITTEES Condensed Matter Physics in the Prime of the 21st Century Downloaded from www.worldscientific.com JANUSZ JȨDRZEJEWSKI ROMUALD LEMAŃSKI MANUEL RICHTER ARKADIUSZ WÓJS Secretary: Volodymyr Derzhko Treasurer: Artur Duda Institute of Theoretical Physics of the University of Wroc law Institute of Low Temperature and Structure Research of the Polish Academy of Sciences Leibniz-Institut fur Festk orperund Werkstoffforschung Dresden e.v. Institute of Physics of the Wroc law University of Technology Institute of Theoretical Physics of the University of Wroc law Institute of Theoretical Physics of the University of Wroc law ORGANIZED BY Institute of Theoretical Physics of the University of Wroc law Institute of Low Temperature and Structure Research Polish Academy of Sciences in Wroc law Institute of Physics of the Wroc law University of Technology Leibniz-Institute for Solid State and Materials Research Dresden ix
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Condensed Matter Physics in the Prime of the 21st Century Downloaded from www.worldscientific.com Preface Organizing Committees CONTENTS Dynamical Mean-Field Theory for Correlated Lattice Fermions 1 K. Byczuk Jordan-Wigner Fermionization and the Theory of Low-Dimensional Quantum Spin Models. Dynamic Properties 35 O. Derzhko Quantum Computing with Electrical Circuits: Hamiltonian Construction for Basic Qubit-Resonator Models 89 M.R. Geller Coherent Control and Decoherence of Charge States in Quantum Dots 119 P. Machnikowski Basics of Spintronics: From Metallic to All-Semiconductor Magnetic Tunnel Junctions 159 J.A. Majewski Physics of Carbon Nanostructures 201 V.A. Osipov v ix Quantum Molecular Dynamics Simulations for Warm Dense Matter and Applications in Astrophysics 223 R. Redmer, N. Nettelmann, B. Holst, A. Kietzmann and M. French xi
xii Organizing Committees Correlated Systems on Geometrically Frustrated Lattices: From Magnons to Electrons 237 J. Richter and O. Derzhko Condensed Matter Physics in the Prime of the 21st Century Downloaded from www.worldscientific.com Full-Potential Local-Orbital Approach to the Electronic Structure of Solids and Molecules 271 M. Richter, K. Koepernik and H. Eschrig Theory of Dynamical Thermal Transport Coefficients in Correlated Condensed Matter 293 B. Sriram Shastry Carrier Concentration Induced Ferromagnetism in Semiconductors 327 T. Story Index 353