STEP DYNAMICS AND EQUILIBRIUM STRUCTURE OF MONOATOMIC STEPS ON SI(100)-2X1

Monte Carlo simulations of the dynamics for a B-type step on the Si(10 0)-2x1 surface are reported. The equilibrium structure of the step is considered to be the result of attachment and detachment processes. Ne arest-neighbor interaction energies are considered for detachment from steps and a simple relaxation mechanism is used for attachment. This simple model makes it possible to gain insight into the effects of the relaxation process inherent to the system under study. We show that t his mechanism lays a crucial role in determining the equilibrium patte rns found in Si(100) steps and that effective interaction energies can not be determined from the frozen low-temperature step profile without taking the dynamics processes into account appropriately.