Microcluster Physics
2nd Edition
Published on 20. July 1998
Book
Hardback
XII, 236 pages
978-3-540-63974-9 (ISBN)
Description
Microcluster Physics
provides a lucid account of the fundamental physics of all types of microclusters, outlining the dynamics and static properties of this new phase of matter intermediate between a solid and a molecule. Since originally published in 1991, the field of microclusters has experienced surprising developments, which are reviewed in this new edition: The determination of atomic structure, spontaneous alloying, super-shell, fission, fragmentation, evaporation, magnetism, fullerenes, nanotubes, atomic structure of large silicon clusters, superfluidity of a He cluster, water clusters in liquid, electron correlation and optimizsation of the geometry, and scattering.
More details
Series
Edition
Second Edition 1998
Language
English
Place of publication
Berlin
Germany
Publishing group
Springer Berlin
Target group
Professional and scholarly
Research
Edition type
Enlarged edition
Revised edition
Illustrations
XII, 236 p.
Dimensions
Height: 241 mm
Width: 160 mm
Thickness: 19 mm
Weight
547 gr
ISBN-13
978-3-540-63974-9 (9783540639749)
DOI
10.1007/978-3-642-58926-3
Schweitzer Classification
Other editions
Additional editions
Satoru Sugano | Hiroyasu Koizumi
Microcluster Physics
Book
10/2012
2nd Edition
Springer
€192.59
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Persons
Content
1. What are Microclusters?.- 1.1 Constituent Small Particles of Material.- 1.2 Division of the Materials.- 1.3 Shell Periodicity of Atomic Structure.- 2. Dynamics of Atomic Structure.- 2.1 Solid-like, Liquid-like, or Fluctuating?.- 2.2 Coexistence of Solid-like and Liquid-like Phases.- 2.3 Fluctuating States and Permutation Isomers.- 2.4 Monte-Carlo Simulations.- 2.5 Spontaneous Alloying.- 3. Shell Structure of Metal Clusters.- 3.1 Magic Numbers.- 3.2 The Jellium Model.- 3.3 Theory of Shell Correction.- 3.4 Deformation.- 3.5 Fission.- 3.6 Shell Structure in Large Metal Clusters.- 4. Other Properties of Metal Clusters.- 4.1 Non-Empirical Calculation of Alkali-Metal Clusters.- 4.2 Electronic Structure of Noble-Metal Clusters.- 4.3 Magnetic Properties of Transition-Metal Clusters.- 4.4 Oscillatory Magnetic Moments of Nickel Clusters.- 4.5 Divalent-Metal Clusters.- 4.6 Trivalent-Metal Clusters, AlN.- 5. Semiconductor Clusters.- 5.1 Carbon Clusters.- 5.2 Stabilities of Silicon and Germanium Clusters.- 5.3 Nonempirical Calculations for Si6 and Si10.- 5.4 Force and Vidal Analysis of Larger Silicon Clusters.- 5.5 Recent Nonempirical Calculations for Large Silicon Clusters.- 6. Rare-Gas Clusters.- 6.1 The Magic Numbers for Packing.- 6.2 Helium Clusters.- 7. Molecular Clusters.- 7.1 Photoionization of Ammonia Clusters.- 7.2 Ion-Centered Cage Structure.- 7.3 Water Clusters.- 7.4 Negatively Charged Water Clusters.- 7.5 Electron Attachment to van der Waals Clusters.- 8. Chemical Bonds and Related Topics.- 8.1 Effects of Electron Correlation, and the Optimization of Geometry on Magnetism.- 8.2 Synthetic Chemistry in a Cluster Beam.- 8.3 Generation of a Latent Image.- 8.4 Van der Waals and Metallic Mercury Clusters.- 8.5 Scattering of Microclusters.- References.