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Atomistic structure of stepped surfaces |
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| Authors: | Diana Farkas Rodolfo Politano Ivette C Oppenheim |
| Institution: | a Department of Materials Science and Engineering, Virginia Polytechnic Institute and State University, Blacksburg, VA 24061, USA b Escola Politécnica and Instituto de Física USP, São Paulo, Brazil c Instituto de Física USP, São Paulo, Brazil |
| Abstract: | Atomistic computer simulation with embedded atom method (EAM) interatomic forces was used to study the structure of surface steps on the {111} unreconstructed surface in fcc metallic materials. The energetics and local atomic relaxation behavior of ledges parallel to the  110 direction were studied using a potential describing lattice properties of Au. The vacancy formation energies in the stepped surfaces was also studied, and it was found that the energy of formation of a vacancy in a terrace is the same as that in the perfect unstepped surface. This value is 30% lower than that of the bulk. The vacancy formation energy in the ledge is reduced by a factor of two with respect to that of the terraces. The structure of the “up ledge” (A step) is different from the “down ledge” (B step). These differences do not significantly affect the energy of the ledges, although they do affect the vacancy formation energies in sites in the second surface layer near the ledge. The implications of the results for the formation of kinks and the general structure of high index surfaces are discussed. |
| Keywords: | Computer simulations fcc metals Semi-empirical models and model calculations Single crystal surfaces Surface defects Surface structure morphology roughness and topography |
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