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Self organized array of quantum nanostructures via a strain induced morphological instability

Published online by Cambridge University Press:  17 March 2011

David Montiel ,
Judith Müller  and
Eugenia Corvera Poiré
David Montiel
Affiliation:
Departamento de Física y Química Teórica, Facultad de Química, UNAM. Ciudad Universitaria. México, D.F. 04510, MEXICO
Judith Müller
Affiliation:
Instituut-Lorentz, Universiteit Leiden. Postbus 9506, 2300 RA Leiden, THE NETHERLANDS
Eugenia Corvera Poiré
Affiliation:
Departamento de Física y Química Teórica, Facultad de Química, UNAM. Ciudad Universitaria. México, D.F. 04510, MEXICO
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Abstract

Motivated by the work of Li et al. [1], we have studied the strain induced morphological instability at the submonolayer coverage stage of heteroepitaxial growth on a vicinal substrate with regularly spaced steps. We have performed a linear stability analysis and determined for which conditions of coverage a flat front is unstable and for which conditions it is stable. For low coverages the instability will cause the front to break in an array of islands. Assuming that the fastest growing mode of the instability determines the properties of the array, we make an estimation of the islands sizes and aspect ratios as well as an estimation of the separation length between islands of the array formed when the dominant mechanism for transport of matter is diffusion of particles along the growing front. These estimations are given as functions of the terrace width and coverage. Since these ones are experimentally controllable parameters, our results could be used to tailor the spontaneous formation of quantum nanostructures.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 696: Symposium N – Current Issues in Heteroepitaxial Growth--Stress Relaxation and Self Assembly , 2001 , N2.3
Copyright
Copyright © Materials Research Society 2002

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References

[1] Li, Adam, Liu, Feng, Petrovykh, D. Y., Lin, J.-L., Viernow, J., Himpsel, F. J., and Lagally, M. G., Phys. Rev. Lett. 85, 5380 (2000).Google Scholar
[2] Montiel, David, Müller, Judith and Poiré, Eugenia Corvera. J. Phys.: Condens. Matter 14 L49–L55 (2002).Google Scholar
[3] Liu, A., Liu, F., and Lagally, M.G.. Phys. Rev. Lett. 85, 1922 (2000).Google Scholar