Abstract
Detailed reflectivity studies of hexagonal GaN films grown by molecular beam epitaxy on GaAs substrates have been carried out in the energy range from 1.4 to 3.8 eV at room temperature. Measurements using ambient media with different refractive indexes verify that the reflectivity is strongly influenced by a surface roughness. Furthermore, the optical data give a clear evidence for the formation of an interface layer (mixture of GaAs with voids) between the film and the substrate which agrees well with transmission electron microscopy observations. A quantitative analysis has been performed by correcting the reflectivity spectra for the surface roughness and making use of a two-layer model to take into account the interface layer. This procedure yields for all samples the same energy dependent refractive index of GaN despite the differing surface and interface layer properties. The obtained values of the root mean squared roughness are close to the atomic force microscopy data. Growth on (001) substrates has been found to be accompanied by the formation of a thicker interface layer than that for (111)B orientation.
Published Version
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