Growth and characterization of GaAs films deposited on Ge/Si composite substrates by metalorganic chemical vapor deposition |
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Authors: | R D Dupuis J C Bean J M Brown A T Macrander R C Miller L C Hopkins |
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Institution: | (1) AT&T Bell Laboratories, 07974-2070 Murray Hill, New Jersey, USA |
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Abstract: | We report the results of studies which have been made on heteroepitaxial layers of GaAs and AlGaAs grown by metalorganic chemical vapor deposition on composite substrates that consist of four different types of heteroepitaxial layered structures of Ge and Ge-Si grown by molecular beam epitaxy on (100)-oriented Si substrates. It is found that of the four structures studied, the preferred composite substrate is a single layer of Ge ~1 µm thick grown directly on a Si buffer layer. The double-crystal X-ray rocking curves of 2 µm thick GaAs films grown on such substrates have FWHM values as small as 168 arc sec. Transmission electron micrographs of these Ge/Si composite substrates has shown that the number of dislocations in the Ge heteroepitaxial layer can be greatly reduced by an anneal at about 750° C for 30 min which is simultaneously carried out during the growth of the GaAs layer. The quality of the GaAs layers grown on these composite substrates can be greatly improved by the use of a five-period GaAs-GaAsP strained-layer superlattice (SLS). Using the results of these studies, low-threshold optically pumped AlGaAs-GaAs DH laser structures have been grown by MOCVD on MBE Ge/Si composite substrates. |
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Keywords: | GaAs MOCVD Ge/S composite substrates SLS buffer layers |
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