Add to ORKGThe three-dimensional morphology of In(Ga)As nanostructures embedded in a GaAs matrix is investigated by combining atomic force microscopy and removal of the GaAs cap layer by selective wet etching. This method is used to investigate how the morphology of In(Ga)As quantum dots changes upon GaAs capping and subsequent in situ etching with AsBr3. A wave function calculation based on the experimentally determined morphologies suggests that quantum dots transform into quantum rings during in situ etching. (c) 2007 American Institute of Physics
This thesis presents structural and morphological studies of semiconductor nanostructures, namely qu...
Type-II self-assembled GaSb/GaAs nanostructures have been grown by molecular-beam epitaxy and studie...
We have performed atomic force microscopy to investigate the effect of various indium compositions a...
We present an atomic-scale analysis of the indium distribution of self-assembled In(Ga)As quantum ri...
The subject of the present paper is application of selective chemical etching to in-vestigation of t...
The authors present an at.-scale anal. of the In distribution of self-assembled (In,Ga)As quantum ri...
The shape evolution of epitaxially grown InAs/GaAs(001) quantum dots after the controlled removal of...
Using plan-view and cross-sectional scanning tunneling microscopy, the shape and composition of InAs...
International audienceNon-truncated pyramidal In(Ga)As quantum dots (QDs) embedded in GaAs were obta...
Droplet epitaxy of GaAs is studied in real time using in situ surface electron microscopy. The resul...
The surface composition profiles of self-assembled InAs/GaAs quantum rings (QR) are studied both exp...
We present a detailed atomic-resolution study of morphology and substrate etching mechanism in InAs/...
This thesis presents structural and morphological studies of semiconductor nanostructures, namely qu...
Type-II self-assembled GaSb/GaAs nanostructures have been grown by molecular-beam epitaxy and studie...
We have performed atomic force microscopy to investigate the effect of various indium compositions a...
We present an atomic-scale analysis of the indium distribution of self-assembled In(Ga)As quantum ri...
The subject of the present paper is application of selective chemical etching to in-vestigation of t...
The authors present an at.-scale anal. of the In distribution of self-assembled (In,Ga)As quantum ri...
The shape evolution of epitaxially grown InAs/GaAs(001) quantum dots after the controlled removal of...
Using plan-view and cross-sectional scanning tunneling microscopy, the shape and composition of InAs...
International audienceNon-truncated pyramidal In(Ga)As quantum dots (QDs) embedded in GaAs were obta...
Droplet epitaxy of GaAs is studied in real time using in situ surface electron microscopy. The resul...
The surface composition profiles of self-assembled InAs/GaAs quantum rings (QR) are studied both exp...
We present a detailed atomic-resolution study of morphology and substrate etching mechanism in InAs/...
This thesis presents structural and morphological studies of semiconductor nanostructures, namely qu...
Type-II self-assembled GaSb/GaAs nanostructures have been grown by molecular-beam epitaxy and studie...
We have performed atomic force microscopy to investigate the effect of various indium compositions a...