Abstract
Using an energy-minimization approach, we have examined reconstruction effects for one-broken-bond [$\overline{2}11$] and cleavage-induced, two-broken-bond [$2\stackrel{-}{11}$]-type steps on the Si(111) surface. For a [$2\stackrel{-}{11}$] step, we find two inequivalent domain orientations associated with the (2 \ifmmode\times\else\texttimes\fi{} 1) reconstruction pattern of the terrace atoms. Moreover, we are able to account for the relative stability of the [$2\stackrel{-}{11}$] step over the [$\overline{2}11$] step. A spectral analysis of step-related state is presented and compared with recent photoemission measurements.
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