Study of the GaAs MBE growth on (6 3 1)-oriented substrates by Raman spectroscopy

GaAs layers were grown by MBE on (6 3 1)-oriented substrates under a variety of growth conditions. The structural properties of the samples were studied by atomic force microscopy and micro-Raman spectroscopy. Hillock structures were formed on the layers surface presenting an elongation towards the [over(5, -), 9, 3] direction, with dimensions and density that depend on the growth conditions. Raman spectra from the samples showed two peaks corresponding to transversal (TO)- and longitudinal (LO) optical phonons. According to the calculated dipole selection rules both TO and LO phonons are allowed for backscattering from a perfect GaAs(6 3 1) surface, but with the intensity of the TO phonon much larger than that of the LO phonon. This result was used to study the changes in the GaAs surface morphology as a function of growth time and growth temperature. By employing a relatively high growth temperature and a high As pressure a surface corrugation was formed which could be used for the synthesis of one-dimensional structures. © 2006.

A1. High index surface; A1. Low dimensional systems; A1. Nanostructures; A1. Self-assembling; A3. MBE growth; B1. GaAs Atomic force microscopy; Crystal orientation; Growth temperature; Molecular beam epitaxy; Nanostructures; Raman spectroscopy; Self assembly; Semiconductor growth; Longitudinal (LO) optical phonons; Low dimensional systems; Micro-Raman spectroscopy; Self-assembling; Semiconducting gallium arsenide

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