The initial stages of growth of (001)Cu films on (001)Ag substrates have been investigated using the temperature-accelerated dynamics (TAD) simulation method. The acceleration provided by TAD made it possible to simulate the deposition of Cu on (001)Ag at 77 K using a deposition rate of 0.04 ML/s, which matched previously reported experiments. This simulation was achieved without a priori knowledge of the significant atomic processes. The results showed that the increased in-plane lattice parameter of the pseudomorphic Cu reduces the activation energy for the exchange mode of surface diffusion, allowing short-range terrace diffusion and the formation of compact Cu islands on the second film layer at 77 K. Some unexpected complex surface diffusion processes and off-lattice atomic configurations were also observed.
Sprague, J., Montalenti, F., Uberuaga, B., Kress, J., Voter, A. (2002). Simulation of growth of Cu on Ag(001) at experimental deposition rates. PHYSICAL REVIEW. B, CONDENSED MATTER AND MATERIALS PHYSICS, 66(20), 2054151-20541510 [10.1103/PhysRevB.66.205415].
Simulation of growth of Cu on Ag(001) at experimental deposition rates
MONTALENTI, FRANCESCO CIMBRO MATTIA;
2002
Abstract
The initial stages of growth of (001)Cu films on (001)Ag substrates have been investigated using the temperature-accelerated dynamics (TAD) simulation method. The acceleration provided by TAD made it possible to simulate the deposition of Cu on (001)Ag at 77 K using a deposition rate of 0.04 ML/s, which matched previously reported experiments. This simulation was achieved without a priori knowledge of the significant atomic processes. The results showed that the increased in-plane lattice parameter of the pseudomorphic Cu reduces the activation energy for the exchange mode of surface diffusion, allowing short-range terrace diffusion and the formation of compact Cu islands on the second film layer at 77 K. Some unexpected complex surface diffusion processes and off-lattice atomic configurations were also observed.
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