Abstract
We report the characteristics of tunneling to a GaAs(110) substrate with distinct, nanometer-size Fe clusters, as a function of distance from and size of the clusters. We show that Fe clusters of volumes \ensuremath{\sim}150 A${\mathrm{\r{}}}^{3}$, corresponding to \ensuremath{\simeq}13 atoms, are observed to be nonmetallic with a gap at the Fermi level. Larger clusters with >35 atoms begin to show metallic characteristics. We observe a continuum of cluster-induced gap states in tunneling to the GaAs substrate surrounding the metallic Fe clusters. The decay length of these states has a minimum decay of 3.4 A\r{} at midgap and diverges at the valence- and conduction-band edges.
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