Usually, theories of surface growth are based on the study of global processes without taking in account the local behaviour of atoms. We have implemented two Montecarlo simulations. In this work we present this two simulations. Both makes use of local principles of thermodynamic for atomic deposition, relaxation and diffusion of a growing surface, and are based on a simple model that allows us to simulate the growing process of a surface of a certain material. The first one is a quasi-static model whereas the second recreates the atomic interaction. The obtained results agree with those that use global theories and with experimental results of Scanning Tunneling Microscopy (STM). Surface growth of materials is a very well studied topic from the theoretical and experimental point of view [1–6]. The surface structure of certain materials presents a granular morphology randomly distributed along the surface, with hills of various heights and lateral extensions (structure tipically na...
Carmen B. Navarrete, Susana Holgado, Eloy Anguiano