A microscopic kinetic model for the α ⇌ β [e.g., hex ⇌ 1 x 1 for Pt(100) and 1 x 2 ⇌ 1 x 1 for Pt(110)] surface reconstruction was investigated by means of the mean field approximation and Monte Carlo simulations. It considers homogeneous phase nucleation that induced small surface phase defects. These defects could grow or decline via phase border propagation in dependence on the chemical coverage by an adsorbate A (CO). An asymmetry in the adsorbate surface diffusion from one surface phase to the other gives rise to two critical coverages that determine the intervals of stability of the homogeneous α phase, the dynamically stable heterogeneous state, and the homogeneous β phase. Both surfaces show a very similar qualitative behaviour regarding the phase transitions that were of second order in both cases. As a result the experimentally observed nonlinear island growth rate and the critical coverages could be explained at a quantitative level.

Kinetic Model for Surface Reconstruction. V.N.Kuzovkov, O.Kortlüke, W.von Niessen: Physical Review E, 2002, 66[1], 011603 (10pp)