AbstractWe propose structures for clusters of 69, 78, 88, 98, 107, 113, and 115 atoms that, although icosahedral in character, do not follow the so-called magic numbers sequence. More important, these structures yield lower Lennard-Jones potential energy than the minimum reported in the literature. Our findings arose by linking a very simple heuristic with a local search algorithm
We have developed a method to search potential energy surfaces which avoids some of the difficulties...
We have developed a method to search potential energy surfaces which avoids some of the difficulties...
An alternative strategy to find the minimal energy structure of nanoclusters is presented and implem...
AbstractWe propose structures for clusters of 69, 78, 88, 98, 107, 113, and 115 atoms that, although...
On the basis of the icosahedral and decahedral lattices, the lowest energies of the Lennard-Jones (L...
It is widely believed that the lowest energy configurations for small rare gas clusters have icosahe...
It is widely believed that the lowest energy configurations for small rare gas clusters have icosahe...
AbstractIcosahedral structures are generally accepted as the lowest energy geometries for clusters o...
AbstractIcosahedral structures are generally accepted as the lowest energy geometries for clusters o...
Although the existence of 13-atom icosahedral clusters in one-component close-packed undercooled liq...
An unusual atomic cluster structure corresponding to the global minimum of the 98-atom Lennard-Jones...
AbstractIn regard to the problem of determining minimum L-J configurations for clusters of n atoms, ...
It is widely believed that the local icosahedral structure is related to the formation of bulk metal...
Comparative calculations of the binding energy and structure of relaxed closed-shell clusters of ico...
International audienceWe have classified, by their energy, compact finite clusters of icosahedral sy...
We have developed a method to search potential energy surfaces which avoids some of the difficulties...
We have developed a method to search potential energy surfaces which avoids some of the difficulties...
An alternative strategy to find the minimal energy structure of nanoclusters is presented and implem...
AbstractWe propose structures for clusters of 69, 78, 88, 98, 107, 113, and 115 atoms that, although...
On the basis of the icosahedral and decahedral lattices, the lowest energies of the Lennard-Jones (L...
It is widely believed that the lowest energy configurations for small rare gas clusters have icosahe...
It is widely believed that the lowest energy configurations for small rare gas clusters have icosahe...
AbstractIcosahedral structures are generally accepted as the lowest energy geometries for clusters o...
AbstractIcosahedral structures are generally accepted as the lowest energy geometries for clusters o...
Although the existence of 13-atom icosahedral clusters in one-component close-packed undercooled liq...
An unusual atomic cluster structure corresponding to the global minimum of the 98-atom Lennard-Jones...
AbstractIn regard to the problem of determining minimum L-J configurations for clusters of n atoms, ...
It is widely believed that the local icosahedral structure is related to the formation of bulk metal...
Comparative calculations of the binding energy and structure of relaxed closed-shell clusters of ico...
International audienceWe have classified, by their energy, compact finite clusters of icosahedral sy...
We have developed a method to search potential energy surfaces which avoids some of the difficulties...
We have developed a method to search potential energy surfaces which avoids some of the difficulties...
An alternative strategy to find the minimal energy structure of nanoclusters is presented and implem...
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