Journal ArticleDOI
Self-organization in growth of quantum dot superlattices.
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TLDR
The growth of multilayer arrays of coherently strained islands self-organizes into a more regular three-dimensional arrangement, providing a possible route to obtain the size uniformity needed for electronic applications of quantum dot arrays.Abstract:
We investigate the growth of multilayer arrays of coherently strained islands, which may serve as ``quantum dots'' in electronic devices. A simple model reproduces the observed vertical correlation between islands in successive layers. However, the arrangement of islands is not simply repeated from layer to layer. Instead, the island size and spacing grow progressively more uniform. In effect, the structure ``self-organizes'' into a more regular three-dimensional arrangement, providing a possible route to obtain the size uniformity needed for electronic applications of quantum dot arrays.read more
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Journal ArticleDOI
Control on self-organization of InGaAs/GaAs(100) quantum-dot chains
TL;DR: In this paper, the effects of In content and spacer on the evolution of dotchains are investigated in the present work, and it is shown that by reducing the In content in the InGaAs layer, the quantum dots in chains are more connected and arrays of quantum wires would form.
Journal ArticleDOI
Ion-Beam-Directed Self-Ordering of Ga Nanodroplets on GaAs Surfaces
Xingliang Xu,Jiang Wu,Jiang Wu,Xiaodong Wang,Mingliang Zhang,Juntao Li,Shi Zhigui,Handong Li,Zhihua Zhou,Haining Ji,Xiaobin Niu,Zhiming Wang,Zhiming Wang +12 more
TL;DR: Compared to the destructive formation of nanodroplets through direct ion beam bombardment, the controllable assembly of nanadroplets on intact surfaces can be used as templates for fabrication of ordered semiconductor nanostructures by droplet epitaxy.
Dissertation
Auto-organisation de nano-structures par des réseaux de dislocations enterrées
TL;DR: In this paper, the possibilite d'organisation controlee de nano-structures par des champs elastiques periodiques is explored, and a new type of surface is proposed, a nouveau type de surface a ensuite ete utilise comme gabarit for the croissance de nanostructures de germanium.