Abstract

Thermal decomposition of ultrathin oxide layers (less than 1 nm thick) on Si(111) surfaces was studied by using scanning reflection electron microscopy and scanning tunneling microscopy. Void formation, where the diameter and density of the voids depend on the oxide film thickness, occurred on terraces randomly and independently of the buried steps at SiO2/Si(111) interfaces. Decomposition of the oxide layers caused by the void growth produced atomic-height holes on exposed Si surfaces. The surface roughness produced by the holes after thermal decomposition increased with the thickness of the oxide layers. The surface mass transport of Si adatoms to form volatile SiO products explains these experimental results.