Add to ORKGWe present a cross-sectional scanning tunneling microscopy study of GaSb/GaAs quantum dots grown by molecular beam epitaxy. Various nanostructures are observed as a function of the growth parameters. During growth, relaxation of the high local strain fields of the nanostructures plays an important role in their formation. Pyramidal dots with a high Sb content are often accompanied by threading dislocations above them. GaSb ring formation is favored by the use of a thin GaAs first cap layer and a high growth temperature of the second cap layer. At these capping conditions, strain-driven Sb diffusion combined with As/Sb exchange and Sb segregation remove the center of a nanostructure, creating a ring. Clusters of GaSb without a well defined m...
Cross-sectional scanning tunneling microscopy results on GaSb quantum wells and dots in GaAs are fou...
We compare the characteristics of GaSb quantum dots (QDs) grown by molecular beam epitaxy on GaAs at...
Structures containing stacked self-assembled InAs quantum dots within a GaAs matrix are studied by c...
We present a cross-sectional scanning tunneling microscopy study of GaSb/GaAs quantum dots grown by ...
We present structural, electrical, and theoretical investigations of self-assembled type-II GaSb/GaA...
GaSb quantum dots (QDs) in a GaAs matrix are investigated with cross-sectional scanning tunneling mi...
We report a combined experimental and theoretical analysis of Sb and In segregation during the epita...
Atom probe tomography and cross-sectional scanning tunneling microscopy show that GaSb/GaAs quantum ...
The growth interruption (GI) effect on GaSb quantum dot formation grown on GaAs by molecular beam ep...
We present the results of an investigation into the growth of InGaSb/GaAs quantum dots (QDs) by mole...
In this cross-sectional scanning tunneling microscopy study we investigated various techniques to co...
We present a cross-sectional scanning tunneling microscopy (X-STM) investigation of InAs quantum dot...
We discuss strain simulations of quantum dot structures covered with a GaSbAs strain reducing cappin...
The potential for GaSb nanostructures embedded in GaAs to operate as charge-based memory elements at...
In this cross-sectional scanning tunneling microscopy study we investigated various techniques to co...
Cross-sectional scanning tunneling microscopy results on GaSb quantum wells and dots in GaAs are fou...
We compare the characteristics of GaSb quantum dots (QDs) grown by molecular beam epitaxy on GaAs at...
Structures containing stacked self-assembled InAs quantum dots within a GaAs matrix are studied by c...
We present a cross-sectional scanning tunneling microscopy study of GaSb/GaAs quantum dots grown by ...
We present structural, electrical, and theoretical investigations of self-assembled type-II GaSb/GaA...
GaSb quantum dots (QDs) in a GaAs matrix are investigated with cross-sectional scanning tunneling mi...
We report a combined experimental and theoretical analysis of Sb and In segregation during the epita...
Atom probe tomography and cross-sectional scanning tunneling microscopy show that GaSb/GaAs quantum ...
The growth interruption (GI) effect on GaSb quantum dot formation grown on GaAs by molecular beam ep...
We present the results of an investigation into the growth of InGaSb/GaAs quantum dots (QDs) by mole...
In this cross-sectional scanning tunneling microscopy study we investigated various techniques to co...
We present a cross-sectional scanning tunneling microscopy (X-STM) investigation of InAs quantum dot...
We discuss strain simulations of quantum dot structures covered with a GaSbAs strain reducing cappin...
The potential for GaSb nanostructures embedded in GaAs to operate as charge-based memory elements at...
In this cross-sectional scanning tunneling microscopy study we investigated various techniques to co...
Cross-sectional scanning tunneling microscopy results on GaSb quantum wells and dots in GaAs are fou...
We compare the characteristics of GaSb quantum dots (QDs) grown by molecular beam epitaxy on GaAs at...
Structures containing stacked self-assembled InAs quantum dots within a GaAs matrix are studied by c...