Temperature-accelerated molecular dynamics simulation of the evolution of a low-energy incident Cu₃ cluster on the Cu(100) surface with a monoatomic step

The molecular dynamics simulation of the normal incidence of a Cu₃ cluster with an energy of 0.2–1 eV/atom on a Cu(100) substrate at an equilibrium temperature of 500–700 K is performed. This substrate contains a rectilinear step, whose height is one atomic layer. After 20-ps relaxation of the atomic cluster on the substrate, its further thermally activated motion on the surface is simulated using the method of temperature- accelerated molecular dynamics. The Cu₃ cluster mainly demonstrates rotational-translational motion. The time interval between two successive atomic transitions of the cluster is found to be reduced as the distance to the step is decreased.