Surface electron standing waves and adatom heights onSi(111)−3×3−(Ga,In,Sn)surfaces

Abstract

GaK and SnL x-ray emissions from $\mathrm{Si}\mathrm{}\left(111\right)-\sqrt{3}\times \sqrt{3}-\mathrm{Ga}$ and -Sn surfaces induced by irradiation of an electron beam were measured as functions of the incident glancing angle. By analyzing anomalous x-ray intensities under Bragg conditions, which are due to the formation of electron standing waves, the heights of Ga and Sn were determined. Compared with the previous result for $\mathrm{Si}\mathrm{}\left(111\right)-\sqrt{3}\times \sqrt{3}-\mathrm{In}$ structures, the height of Sn was found to be higher than that of In, although their atomic numbers and covalent radii are very close. The effects of atomic size and electronic structures on adatom height will be discussed.