EFFECTS OF THE FORMATION METHOD OF EARLY GAP BUFFER MONOLAYERS ON THE STRAIN STATE OF GAAS FILMS ON VICINAL SI(001) SUBSTRATES

Abstract

A significant dependence of the strain state of GaAs film lattice grown by molecular−beam epitaxy (MBE) on the nucleation method of early GaP buffer layers (50 nm) on the vicinal substrate Si(001) 4° around the axis was discovered. GaP growth started layer−by−layer with a gallium or a phosphorus sublayer. If GaP nucleated with a gallium sublayer, the GaAs film has a significant lattice rotation around the axis. If the buffer starts forming with a phosphorus layer the GaAs film evidently rotates around the axis. The film relaxation degree ex- ceeds 100%, and the film is in a laterally strained state. Analysis was carried out using the triclinic distortion model. A reciprocal space scattering map was obtained using X−ray diffraction in a three−axis low resolution setup. The map clearly shows that the GaAs film lattice is rotated.