Add to ORKGStructural characteristics of uncapped InAs/InGaAsP dots were evaluated based on a simple approach using image processing of atomic-force micrographs. Height, mean area, ensemble density, and shape of the dots were determined. On this basis a systematic study of the effect of growth temperature and growth interruption as the main parameters that influence the formation of the dots was performed. With a PL analysis of buried QDs deposited in the same run with the same growth conditions a correlation between optical and structural characteristics was developed. On this basis comparison of modelled transition energies with experimental data was made possible
We analyzed by atomic force microscopy self-assembled quantum dots of InAs on GaAs(001) in a series ...
We analyzed by atomic force microscopy self-assembled quantum dots of InAs on GaAs(001) in a series ...
We analyzed by atomic force microscopy self-assembled quantum dots of InAs on GaAs(001) in a series ...
Self-assembled quantum dots of InAs have been grown on InP substrates by metal-organic vapour phase ...
InAs quantum dots (QDs) are grown on InP or lattice matched GaInAsP buffers using horizontal flow me...
This thesis is based on results concerning the formation of semiconductor self-assembled quantum dot...
We investigate the effect of in situ annealing during growth pause on the morphological and optical ...
We investigate the effect of in situ annealing during growth pause on the morphological and optical ...
We investigate the effect of in situ annealing during growth pause on the morphological and optical ...
The impact of the capping material on the structural properties of self-assembled InAs quantum dots ...
We investigate the effect of in situ annealing during growth pause on the morphological and optical ...
The impact of the capping material on the structural properties of self-assembled InAs quantum dots ...
Self-organized InAs quantum dots (QDs) on InP (1 0 0) substrate have been prepared by solid-source m...
The single layer In0.5Ga0.5As quantum dots (QDs) were grown on a thin InxGa1-xAs underlying layer by...
© 2018 Elsevier B.V. Quantum Dots (QDs) are considered as an efficient building block of many optoel...
We analyzed by atomic force microscopy self-assembled quantum dots of InAs on GaAs(001) in a series ...
We analyzed by atomic force microscopy self-assembled quantum dots of InAs on GaAs(001) in a series ...
We analyzed by atomic force microscopy self-assembled quantum dots of InAs on GaAs(001) in a series ...
Self-assembled quantum dots of InAs have been grown on InP substrates by metal-organic vapour phase ...
InAs quantum dots (QDs) are grown on InP or lattice matched GaInAsP buffers using horizontal flow me...
This thesis is based on results concerning the formation of semiconductor self-assembled quantum dot...
We investigate the effect of in situ annealing during growth pause on the morphological and optical ...
We investigate the effect of in situ annealing during growth pause on the morphological and optical ...
We investigate the effect of in situ annealing during growth pause on the morphological and optical ...
The impact of the capping material on the structural properties of self-assembled InAs quantum dots ...
We investigate the effect of in situ annealing during growth pause on the morphological and optical ...
The impact of the capping material on the structural properties of self-assembled InAs quantum dots ...
Self-organized InAs quantum dots (QDs) on InP (1 0 0) substrate have been prepared by solid-source m...
The single layer In0.5Ga0.5As quantum dots (QDs) were grown on a thin InxGa1-xAs underlying layer by...
© 2018 Elsevier B.V. Quantum Dots (QDs) are considered as an efficient building block of many optoel...
We analyzed by atomic force microscopy self-assembled quantum dots of InAs on GaAs(001) in a series ...
We analyzed by atomic force microscopy self-assembled quantum dots of InAs on GaAs(001) in a series ...
We analyzed by atomic force microscopy self-assembled quantum dots of InAs on GaAs(001) in a series ...