Microcluster PhysicsSpringer Science & Business Media, 20.07.1998 - 236 Seiten 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. |
Inhalt
I | 1 |
III | 2 |
V | 7 |
VI | 10 |
VII | 11 |
VIII | 13 |
IX | 16 |
XI | 17 |
LVI | 115 |
LVII | 116 |
LVIII | 117 |
LIX | 120 |
LX | 122 |
LXII | 125 |
LXIII | 127 |
LXIV | 128 |
XII | 19 |
XIII | 23 |
XIV | 25 |
XV | 30 |
XVI | 33 |
XVII | 35 |
XIX | 38 |
XX | 41 |
XXI | 44 |
XXII | 48 |
XXIV | 50 |
XXV | 51 |
XXVI | 54 |
XXVII | 56 |
XXVIII | 58 |
XXIX | 59 |
XXX | 61 |
XXXI | 65 |
XXXII | 67 |
XXXIII | 68 |
XXXV | 72 |
XXXVI | 78 |
XXXVII | 79 |
XXXVIII | 85 |
XXXIX | 86 |
XL | 88 |
XLI | 91 |
XLII | 92 |
XLIV | 93 |
XLV | 94 |
XLVI | 96 |
XLVII | 98 |
XLVIII | 99 |
L | 102 |
LI | 104 |
LII | 105 |
LIII | 108 |
LXV | 129 |
LXVI | 131 |
LXVII | 133 |
LXVIII | 135 |
LXIX | 137 |
LXX | 138 |
LXXI | 140 |
LXXII | 144 |
LXXIII | 148 |
LXXV | 149 |
LXXVI | 155 |
LXXVII | 158 |
LXXVIII | 161 |
LXXIX | 166 |
LXXXI | 169 |
LXXXII | 170 |
LXXXIII | 171 |
LXXXIV | 175 |
LXXXV | 180 |
LXXXVI | 181 |
LXXXVII | 184 |
LXXXVIII | 186 |
LXXXIX | 187 |
XC | 192 |
XCII | 193 |
XCIII | 196 |
XCIV | 197 |
XCV | 201 |
XCVI | 205 |
XCVII | 206 |
XCVIII | 209 |
XCIX | 210 |
C | 215 |
CI | 217 |
CII | 223 |
| 233 | |
Andere Ausgaben - Alle anzeigen
Häufige Begriffe und Wortgruppen
3d band assumed atomic shell atomic structure binding energy bond bulk caloric curve charged Chem clus cluster beam cluster ions cohesive energy collision-induced dissociation configuration constituent atoms corresponding Coulomb cross sections cuboctahedron deformation density dimer distribution effective potential elec electron affinity energy levels equilibrium geometry Etot experimental Fermi level figure fission fluctuation fragmentation fullerene function GFMC given H3O+ icosahedral icosahedron increases indicates intensity ionization potentials isomers jellium lattice Lennard-Jones potential Lett liquid-drop model magic numbers magnetic magnetic moment mass spectrum metal clusters metastable microclusters molecular molecules motion neutral cluster nickel clusters number of atoms observed obtained octahedron orbit oscillation parameter particles peaks pentagonal pentagonal pyramid photoionization Phys range rare-gas respectively shell correction shell model shell structure shows simulations sodium clusters solid solid-like spectra spherical spin stable Sugano surface symmetry Table temperature tion total energy transition transition-metal triangle trimer tron valence electrons values water clusters
Beliebte Passagen
Seite 226 - SH Yang, MJ Craycraft, J. Conceicao. RT Laaksonen, O. Cheshnovsky.
Seite 231 - C. Brechignac, M. Broyer, Ph. Cahuzac, G. Delacre'taz, P. Labastie, JP Wolf and L. Woste, Phys. Rev. Lett. 60, 275 (1988).
Seite 225 - M. Brack, J. Damgaard, AS Jensen, HC Pauli, VM Strutinsky, CY Wong: Rev. Mod. Phys. 44, 320(1972) 3.43 RW Hesse, WD Myers: Geometric Relationships of Macroscopic Nuclear Physics (Springer, Berlin, Heidelberg 1988) 3.44 I.