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Details

Autor(en) / Beteiligte
Titel
Thermodynamic evolution of antiphase boundaries in GaP/Si epilayers evidenced by advanced X-ray scattering
Ist Teil von
  • Applied surface science, 2012-01, Vol.258 (7), p.2808-2815
Ort / Verlag
Amsterdam: Elsevier B.V
Erscheinungsjahr
2012
Quelle
Alma/SFX Local Collection
Beschreibungen/Notizen
  • ► It is here demonstrated that APD can be detected with simple X-ray lab experimental setups in heterogeneous growth. ► It is shown that statistical information can be extracted to understand how the APD modify thermodynamics of the growth. ► Finally, a link is made between the observed roughness of the samples and APDs and a new growth mechanism is proposed. We have investigated quantitatively anti-phase domains (APD) structural properties in 20nm GaP/Si epilayers grown by molecular beam epitaxy, using fast, robust and non-destructive analysis methods. These analyses, including atomic force microscopy and X-ray diffraction, are applied to samples grown by various molecular beam epitaxy growth modes. Roughness, lateral crystallite size of the epilayer, ratio of antiphase domains and their relationship are discussed. It is shown that both these analysis methods are useful to clarify the physical mechanisms occurring during the heterogeneous growth. Low temperature migration enhanced epitaxy is found to guarantee smoother surface than conventional molecular beam epitaxy. Effect of annealing temperature on antiphase boundaries (APBs) thermodynamics is discussed. The modification of the thermodynamic equilibrium through a thermal activation of APBs motion is expected to play an important role in the dynamic evolution of surfaces during thermal annealing and growth.

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