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Electron Correlation in New Materials and Nanosystems

  • Conference proceedings
  • © 2007

Overview

Editors:
  1. Kurt Scharnberg

    1. University of Hamburg, Germany

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    You can also search for this editor in PubMed   Google Scholar

  2. Sergei Kruchinin

    1. Bogolyubov Institute for Theoretical Physics, Kiev, Ukraine

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    You can also search for this editor in PubMed   Google Scholar

  • Some review articles written by the world’s leading experts and not available elsewhere
  • Original research presented here for the first time in printed form
  • Contributions especially from Eastern Europe which are not easily accessible otherwise
  • Extensive lists of references
  • Extensive subject index

Part of the book series: NATO Science Series II: Mathematics, Physics and Chemistry (NAII, volume 241)

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Table of contents (33 papers)

  1. Front Matter

    Pages I-XI
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  2. Quantum Nanodevices

    1. Front Matter

      Pages I-XI
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    2. TRANSPORT PROPERTIES OF FULLERENE NANODEVICES

      • Akihiko Fujiwara, Yukitaka Matsuoka, Nobuhito Inami, Eiji Shikoh
      Pages 3-8

    3. NANOSCALE STUDIES ON METAL-ORGANIC INTERFACES

      • N. Chandrasekhar
      Pages 9-21

    4. ELECTRON-ELECTRON INTERACTION IN CARBON NANOSTRUCTURES

      • A.I. Romanenko, O.B. Anikeeva, T.I. Buryakov, E.N. Tkachev, A.V. Okotrub, V.L. Kuznetsov et al.
      Pages 23-35

    5. SINGLE-LEVEL MOLECULAR RECTIFIER

      • E.G. Petrov
      Pages 37-57

    6. MAGNETIC UNIPOLAR FEATURES IN CONDUCTIVITY OF POINT CONTACTS BETWEEN NORMAL AND FERROMAGNETIC D-METALS (CO, NI, FE)

      • Yu. G. Naidyuk, I.K. Yanson, D.L. Bashlakov, V.V. Fisun, O.P. Balkashin, L.Y. Triputen et al.
      Pages 59-69

  3. Superconductivity

    1. Front Matter

      Pages I-XI
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    2. II.1 Magnesium diboride and the two-band scenario

      • Satoshi Akutagawa, Takahiro Muranaka, Jun Akimitsu
      Pages 73-92

    3. II.1 Magnesium diboride and the two-band scenario

      • A. Bianconi, M. Filippi, M. Fratini, E. Liarokapis, V. Palmisano, N. L. Saini et al.
      Pages 93-101

    4. II.1 Magnesium diboride and the two-band scenario

      • Thomas Dahm
      Pages 103-105

    5. II.1 Magnesium diboride and the two-band scenario

      • T. Örd, N. Kristoffel, K. Rägo
      Pages 107-115

    6. II.1 Magnesium diboride and the two-band scenario

      • Hidemi Nagao, Hiroyuki Kawabe, Sergei P. Kruchinin
      Pages 117-127

    7. II.1 Magnesium diboride and the two-band scenario

      • Hiroyuki Kawabe, Hidemi Nagao, Sergei P. Kruchinin
      Pages 129-139

    8. II.2 Cuprate and other unconventional superconductors

      • Guy Deutscher
      Pages 141-148

    9. II.2 Cuprate and other unconventional superconductors

      • Ariando H., H. J. H. Smilde, C. J. M. Verwijs, G. Rijnders, D. H. A. Blank, H. Rogalla et al.
      Pages 149-174

    10. II.2 Cuprate and other unconventional superconductors

      • Dirk Manske, Ilya Eremin
      Pages 175-186

    11. II.2 Cuprate and other unconventional superconductors

      • J.-P. Ismer, I. Eremin, D. K. Morr
      Pages 187-197

    12. II.2 Cuprate and other unconventional superconductors

      • C. T. Rieck, K. Scharnberg, S. Scheffler
      Pages 199-221

    13. II.2 Cuprate and other unconventional superconductors

      • K. Yamaguchi, Y. Kitagawa, S. Yamanaka, D. Yamaki, T. Kawakami, M. Okumura et al.
      Pages 223-233
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Keywords

About this book

The articles collected in this book cover a wide range of materials with extraordinary superconducting and magnetic properties. For many of the materials studied, strong electronic correlations provide a link between these two phenomena which were long thought to be highly antagonistic. Both the progress in our understanding of fundamental physical processes and the advances made towards the development of devices are reported here. The materials studied come in a variety of forms and shapes from bulk to epitaxial films, nano- and heterostructures down to those involving single molecules and double quantum dots. In some cases the structuring serves the study of bulk properties. More often it is the change of these properties with nanostructuring and the properties of different materials in close proximity with each other that are of key interest because of possible application of these materials or heterostructures to quantum computing and spintronics.

Editors and Affiliations

  • University of Hamburg, Germany

    Kurt Scharnberg

  • Bogolyubov Institute for Theoretical Physics, Kiev, Ukraine

    Sergei Kruchinin

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