Thermodynamics of small clusters of atoms: A molecular dynamics simulation
- 1 June 1974
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 60 (11) , 4161-4169
- https://doi.org/10.1063/1.1680883
Abstract
The thermodynamic properties of clusters containing 55, 135, and 429 atoms have been calculated using the molecular dynamics method. Structural and vibrational properties of the clusters were examined at different temperatures in both the solid and the liquid phase. The nature of the melting transition was investigated, and a number of properties, such as melting temperature, latent heat of melting, and premelting phenomena, were found to vary with cluster size. These properties were also found to depend on the structure of the solid phase. In this phase the configuration of lowest free energy was found to be icosahedral in the 55-atom system and face centered cubic for the two larger systems.Keywords
This publication has 19 references indexed in Scilit:
- Molecular dynamics studies of the properties of small clusters of argon atomsThe Journal of Chemical Physics, 1973
- Melting of a Small Cluster of AtomsNature Physical Science, 1973
- Melting of microcrystals in two dimensions: A molecular dynamics simulationComputer Physics Communications, 1973
- Statistics and stability of small assemblies of atomsJournal of Crystal Growth, 1972
- The single-configuration approximation in the calculation of the thermodynamic properties of microcrystalline clustersChemical Physics Letters, 1972
- On a Generalized Einstein Theory for the Thermodynamics of Planar Surfaces and MicrocrystallitesThe Journal of Chemical Physics, 1971
- Thermodynamics of Microcrystallites and Its Relation to Nucleation TheoryThe Journal of Chemical Physics, 1971
- Anomalous entropy of small clusters of atomsChemical Physics Letters, 1970
- Size and Surface Effects on the Phonon Properties of Small ParticlesPhysical Review B, 1970
- Configuration, Energy, and Heat Capacity of Small Spherical Clusters of AtomsThe Journal of Chemical Physics, 1970