Stress-determined nucleation sites above GaAs-capped arrays of InAs quantum dots

Latini, V.; Placidi, E.; Arciprete, F.; Tisbi, E.; Patella, F.; Magri, Rita

doi:10.1063/1.4963126

Cited by 3 publications

(1 citation statement)

References 26 publications

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“…We also point out that Liu et al [29] reported, based on a continuum approach similar to the present one, the existence of a growth-parameter window where vertical anti-alignment could take place also in the absence of surface roughness. A similar conclusion was also drawn by Latini et al for III/V systems [30]. While not ruling out the importance of such results under different conditions, here we have shown that for the present system and growth parameters roughness plays, instead, a decisive role.…”

Section: Continuum Growth Simulations and Interpretation Of The Obser...supporting

confidence: 92%

A self-ordered, body-centered tetragonal superlattice of SiGe nanodot growth by reduced pressure CVD

et al. 2017

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Self-ordered three-dimensional body-centered tetragonal (BCT) SiGe nanodot structures are fabricated by depositing SiGe/Si superlattice layer stacks using reduced pressure chemical vapor deposition. For high enough Ge content in the island (>30%) and deposition temperature of the Si spacer layers (T > 700 °C), we observe the formation of an ordered array with islands arranged in staggered position in adjacent layers. The in plane periodicity of the islands can be selected by a suitable choice of the annealing temperature before the Si spacer layer growth and of the SiGe dot volume, while only a weak influence of the Ge concentration is observed. Phase-field simulations are used to clarify the driving force determining the observed BCT ordering, shedding light on the competition between heteroepitaxial strain and surface-energy minimization in the presence of a non-negligible surface roughness.

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Section: Continuum Growth Simulations and Interpretation Of The Obser...supporting

confidence: 92%

A self-ordered, body-centered tetragonal superlattice of SiGe nanodot growth by reduced pressure CVD

et al. 2017

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Impact of vertical inter-QDs spacing correlation with the strain energy in a coupled bilayer quantum dot heterostructure

Tongbram

Mandal

Sengupta

et al. 2017

Journal of Alloys and Compounds

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Anisotropic cation diffusion in the GaAs capping of InAs/GaAs(001) quantum dots

Tisbi

Latini

Patella

et al. 2016

Journal of Applied Physics

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The effect of the As flux on the kinetics of Ga and In cations, and the role of the elastic strain were studied in the capping process of isolated InAs quantum dots with GaAs by molecular beam epitaxy. Using a fixed evaporation geometry and a suitable choice of growth parameters which enhance the anisotropic diffusion of In and Ga cations, we obtained, at variance with current results, the formation of asymmetric GaAs caps. The growth of a second InAs layer led to the formation of vertically aligned couples of dots (one buried, the other uncapped) placed on the right side of the GaAs caps on the surface, with no other dots in different locations

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Stress-determined nucleation sites above GaAs-capped arrays of InAs quantum dots

Cited by 3 publications

References 26 publications

A self-ordered, body-centered tetragonal superlattice of SiGe nanodot growth by reduced pressure CVD

A self-ordered, body-centered tetragonal superlattice of SiGe nanodot growth by reduced pressure CVD

Impact of vertical inter-QDs spacing correlation with the strain energy in a coupled bilayer quantum dot heterostructure

Anisotropic cation diffusion in the GaAs capping of InAs/GaAs(001) quantum dots

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