Abstract
We studied the atomic structure of the Si(00l)-c(4×12)-Al surface, which appears in scanning tunneling microscopy (STM) images as an array of clusters in the four-fold direction. Transmission electron diffraction (TED) patterns showed ( h/4, k/12) fractional-order spots after depositing about four monolayers of aluminum on clean Si(00l) surfaces at a substrate temperature of 600°C. A model, which accords with the TED intensity and the observed STM images, consists of a periodical terrace-and-trench geometry in the 12-fold direction. In the four-fold direction, an aluminum ad-dimer is adsorbed every 4 a distance ( a =0.384 nm) on the terraces terminated by double-height steps, making up the cluster array corresponding to bright protrusions in STM images. In addition to ad-dimers, rebonded atoms at the double-height step edge and zigzag isolated dimers in the trench are found to be the building blocks of the c(4×12) structure.
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