X-Ray Studies of GaAs/Si and ZnS/Si

Abstract

ABSTRACTThe MOCVD-grown layers of GaAs/Si(001), InP/GaAs/Si(001), and ZnS/Si(111) were studied using X-ray rocking curve (XRC), double crystal topography (DCT), and Nomarski phase contrast microscopy. The layer qualities of GaAs/Si, InP/GaAs, and InP/GaAs/Si from the XRC full width at half maximum (FWHM) agreed well with these determined from the Nomarski phase contrast microscopy. The in-plane lattice mismatch (parallel X-ray strain) was 3.71% for GaAs/Si. In the double heteroepitaxial layer (InP/GaAs/Si), the parallel X-ray strain of GaAs was 4.03% with respect to Si. The parallel X-ray strain was larger than the perpendicular X-ray strain in GaAs/Si, perhaps due to the mismatch in thermal expansion coefficients between GaAs and Si. Dislocation densities estimated from the rocking curve linewidth were 5.30 × 107 cm−2 for GaAs/Si, 3.27 × 108 cm−2 for InP/GaAs. We also present the double crystal X-ray topographs of the III-V/Si and II-VI/Si samples.