Low-dimensional systems and surface physics

Study of ultrathin iron silicide films grown by solid phase epitaxy on the Si(001) surface

V. V. Balashev^ab, V. V. Korobtsov^ab, T. A. Pisarenko^ab, E. A. Chusovitin^a, K. N. Galkin<sup>a

a</sup> Institute for Automation and Control Processes, Far Eastern Branch of the Russian Academy of Sciences, Vladivostok
^b Institute of Physics and Information Technologies, Far Eastern Federal University, Vladivostok

Abstract: Ultrathin films of iron silicide have been grown by high-temperature annealing of 0.14-to 0.5-nm-thick Fe films deposited on the Si(001) surface at room temperature. It has been found that annealing leads to the formation of nanoislands of iron silicide on the surface, so that their type depends on the thickness of the Fe film. High-energy electron diffraction and atomic force microscopy measurements have revealed that the deposition of Fe films less than 0.32 nm thick on the Si(001) surface stimulates epitaxial growth of both three-dimensional $\beta$-FeSi$_2$ and two-dimensional $\gamma$-FeSi$_2$ islands. It has been found that, for Fe coverages of more than 0.32 nm thick, a complete transition to solide phase epitaxy is observed only for two-dimensional $\beta$-FeSi$_2$ islands. The effect of prolonged annealing at 850$^\circ$C on the morphology of the surface of the iron silicide film has been investigated.

Received: 25.05.2009

 English version: Physics of the Solid State, 2010, 52:2, 397–403

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