A stepped surface has been modeled by taking stacks of graphite basal
planes truncated to form an effectively infinite set of steps of const
ant width and height. The gas-solid interaction potential used exhibit
s a deep trough at the bottom of each step and a large barrier to free
translation at the top. Four widths were studied, ranging from 25 to
8 angstrom (step heights were held fixed at 3.4 angstrom). The adsorpt
ion of krypton on these surfaces was simulated at temperatures of 110,
130, and 150 K and coverages ranging from 1/2 to 2 nominal monolayers
. It was found that the presence of the steps produces strong ordering
in these layers. In addition to structural information, as measured b
y the local densities of these systems, the coverage dependence of the
energy of adsorption is also reported. The pronounced heterogeneity i
n the gas-solid interaction does not give the expected decay in the ad
sorption energy curves. Reasons for this behavior (and other results)
are suggested. In addition to the thermodynamic data, the molecular dy
namics data have been used to extract diffusive fluxes of molecules ju
mping from one step to another. The coverage and temperature dependenc
e of these fluxes are presented and discussed.