Abstract
The structure, growth, and bonding nature of (n=2–13) clusters is studied using the density-functional molecular-dynamics method and the simulated annealing technique within the local-density approximation. We find a tetrahedron and a trigonal prism as two important constituents of the structure of Mg clusters to which atoms can be added by capping the faces. is neither an icosahedron nor a cuboctahedron. The lowest-energy structure of that we obtained from our simulated annealing can be considered as fusion of and clusters. This is nearly degenerate with the relaxed hcp structure and suggests the possibility of a path for transition to hcp structure for bigger clusters. We find and to be the magic clusters, which is in general agreement with the predictions of the jellium model of metal clusters. However, calculations of the charge densities, the p character, and the gap between the highest occupied and the lowest unoccupied states suggest the presence of mixed bonding character in Mg clusters and an oscillatory and slow convergence to bulk metallic behavior.
- Received 6 March 1991
DOI:https://doi.org/10.1103/PhysRevB.44.8243
©1991 American Physical Society