In situ observation of silicon hydrides on Si(100) surfaces during synchrotron-radiation-stimulated Si2H6 gas source molecular beam epitaxy

Abstract

Silicon hydrides (SiH_n) on the Si(100) surface during synchrotron‐radiation (SR) stimulated Si₂H₆ gas source molecular beam epitaxy has been observed in situ at low temperatures (≤400 °C), by means of infrared reflection absorption spectroscopy using CoSi₂ buried metal layer substrates. At high temperatures (400 °C, 370 °C), SiH is a dominant surface species, while with temperature decrease from 275 to 50 °C, the number of SiH decreases, and, on the other hand, SiH₂ and SiH₃ appear and increase. This result explains the change of reflection high‐energy diffraction pattern from 2×1 to 1×1. The SiH in the bulk network has not been observed. SR irradiation on the film at 140 °C after deposition shows that SiH₂ and SiH₃ are easily decomposed to SiH and that SiH decomposes much more slowly than SiH₂ and SiH₃.