Observation of stress effects on GaAs at the interface of molecular beam epitaxy grown ZnSe/GaAs(100) heterostructures
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We report the observation of stress effects on GaAs at the interface of molecular beam epitaxy grown (MBE) ZnSe/GaAs. These effects were observed for samples with ZnSe epilayers thicker than their critical thickness 0.17 μm through the application of photoreflectance (PR) and reflectance difference (RD) spectroscopy. Comparison between the first derivative of the RD spectra (DRD) and the PR spectra indicates that in a sample 0.1 μm thick, the PR is a normal bulk-like GaAs signal. The same comparison indicates that for samples thicker than the critical thickness, there are two components in the PR spectra: a bulk-like signal as for the thin sample, and a second signal coming from a strained region populated by dislocations. From the theory of PR spectra, we estimate that the observed strain is ε = 0.0010 ± 0.0004 in the GaAs at the heterostructure interface with a ZnSe layer 1.05 μm in thickness. © 1998 Elsevier Science B.V. All rights reserved.
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Difference reflectance; Dislocations; GaAs; Interface; Photoreflectance; Strain; X-ray diffraction; ZnSe/GaAs heterostructures Dislocations (crystals); Light reflection; Molecular beam epitaxy; Semiconducting gallium arsenide; Semiconducting zinc compounds; Semiconductor growth; Spectroscopic analysis; Strain; Stress analysis; X ray crystallography; Photoreflectance (PR) spectroscopy; Reflectance difference (RD) spectroscopy; Zinc selenide; Heterojunctions
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