Abstract:
Undoped, uniformly Si-doped, and $\delta$-Si-doped GaAs layers grown by molecular-beam epitaxy on (100)- and (111)A-oriented GaAs substrates at a temperature of 230$^\circ$C are studied. The As$_4$ pressure is varied. The surface roughness of the sample is established by atomic-force microscopy; the crystal quality, by X-ray diffraction measurements; and the energy levels of different defects, by photoluminescence spectroscopy at a temperature of 79 K. It is shown that the crystal structure is more imperfect in the case of GaAs(111)A substrates. The effect of the As$_4$ flux during growth on the structure of low-temperature GaAs grown on different types of substrates is shown as well.
Keywords:GaAs, Photoluminescence Property, Dopant Impurity, Principal Peak, GaAs Film.