Nanomaterials (Dec 2022)

Dislocation Filter Based on LT-GaAs Layers for Monolithic GaAs/Si Integration

  • Mikhail O. Petrushkov,
  • Demid S. Abramkin,
  • Eugeny A. Emelyanov,
  • Mikhail A. Putyato,
  • Oleg S. Komkov,
  • Dmitrii D. Firsov,
  • Andrey V. Vasev,
  • Mikhail Yu. Yesin,
  • Askhat K. Bakarov,
  • Ivan D. Loshkarev,
  • Anton K. Gutakovskii,
  • Victor V. Atuchin,
  • Valery V. Preobrazhenskii

DOI
https://doi.org/10.3390/nano12244449
Journal volume & issue
Vol. 12, no. 24
p. 4449

Abstract

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The use of low-temperature (LT) GaAs layers as dislocation filters in GaAs/Si heterostructures (HSs) was investigated in this study. The effects of intermediate LT-GaAs layers and of the post-growth and cyclic in situ annealing on the structural properties of GaAs/LT-GaAs/GaAs/Si(001) HSs were studied. It was found that the introduction of LT-GaAs layers, in combination with post-growth cyclic annealing, reduced the threading dislocation density down to 5 × 106 cm−2, the root-mean-square roughness of the GaAs surface down to 1.1 nm, and the concentration of non-radiative recombination centers in the near-surface GaAs/Si regions down to the homoepitaxial GaAs level. Possible reasons for the improvement in the quality of near-surface GaAs layers are discussed. On the one hand, the presence of elastic deformations in the GaAs/LT-GaAs system led to dislocation line bending. On the other hand, gallium vacancies, formed in the LT-GaAs layers, diffused into the overlying GaAs layers and led to an increase in the dislocation glide rate. It was demonstrated that the GaAs/Si HSs obtained with these techniques are suitable for growing high-quality light-emitting HSs with self-assembled quantum dots.

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