Characterization of InP/GaAs/Si structures grown by atmospheric pressure metalorganic chemical vapor deposition

Abstract

The thickness dependence of material quality of InP‐GaAs‐Si structures grown by atmospheric pressure metalorganic chemical vapor deposition was investigated. The InP thickness was varied from 1–4 μm, and that of the GaAs from 0.1–4 μm. For a given thickness of InP, its ion channeling yield and x‐ray peak width were essentially independent of the GaAs layer thickness. The InP x‐ray peak widths were typically 400–440 arcsec for 4‐μm‐thick layers grown on GaAs. The GaAs x‐ray widths in turn varied from 320–1000 arcsec for layer thicknesses from 0.1–4 μm. Cross‐sectional transmission electron microscopy showed high defect densities at both the InP‐GaAs and GaAs‐Si interfaces. In 4‐μm‐thick InP layers the average threading dislocation density was in the range (3–8)×10⁸ cm⁻² with a stacking fault density within the range (0.4–2)×10⁸ cm². The He⁺ ion channeling yield near the InP surface was similar to that of bulk InP (χ_min∼4%), but rose rapidly toward the InP‐GaAs heterointerface where it was typically around 50% for 1‐μm‐thick InP layers. All samples showed room‐temperature luminescence, while at 4.4 K, exciton‐related transitions, whose intensity was a function of the InP thickness, were observed.