By using the genetic algorithm with a many-body Gupta potential, the structures and stabilities of aluminum and nickel clusters and small aluminum-nickel nanoalloy clusters are studied.

In this paper, with a genetic algorithm we study the structures andstabilities of aluminum and nickel clusters and aluminum-nickelnanoalloy clusters, modeled by many-body Gupta potential, It makesclear that for pure nickel clusters, the lowest structures are based onicosahedral packing, while the pure aluminum clusters tend to formamorphous structures.

The lowest-energy geometric structures of rhodium clusters were obtained by using a semiempirical Gupta potential combined with a global evolutive algorithm.

In this paper, we first use Gupta potential and Sutton-Chen potential combined with genetic algorithm to perform a systematic study of the ground state structural properties of Irn(n=2-60) clusters.

Molecular dynamics method and Gupta potential are used to study the melting of Ir clusters with atoms of 13, 55 and 147.

A new model of many-body potentials for HCP metals;

This paper reviewed the research progress on utilizations of crop heterosis and polyploid advantage, and proposed conception of crop arrangement advantage in accordance with crop yield fluctuation and the hard situation to give full play of the advantage potential.