Epitaxial Growth of α-FeSi 2 on Si(111) at Low Temperature

Abstract

Epitaxial α-FeSi₂ phase has been observed on silicon (111) face after growth at T = (500 ÷ 550) °C by Molecular Beam Epitaxy (MBE). In situ Reflection High-Energy Electron Diffraction (RHEED) enabled us to identify its crystallographic structure. Quantitative measurements of the lattice parameters parallel to the interface were obtained from ex situ X-ray diffraction experiments at grazing incidence. The existence of three domains was also observed. These results are shown to be fully consistent with the growth of tetragonal α-FeSi₂. Compared to the bulk orthorhombic β-FeSi₂ state which is mainly determined by a solid-state Jahn-Teller effect, this change of the FeSi₂ structure appears to be directly induced by the epitaxial growth on the (111) silicon surface. During the growth, the relaxation α-FeSi₂ towards β-FeSi₂ has been found. During in situ thermal annealing, the transition of another pseudomorphic cubic-FeSi₂ toward α-FeSi₂ has also been observed. These two irreversible transformations suggest a hierarchy of stability between the various phases of FeSi₂ epitaxially grown on silicon (111) from cubic-FeSi₂ to α-FeSi₂ and finally β-FeSi₂.