Add to ORKGThe interaction between nano-scale objects of different dimensionality, e.g. electrostatic Coulomb-coupled zero-dimensional quantum dots (QD’s) to two-dimensional (2D) systems, is both of fundamental interest and great relevance for the future of memory technology [1]. GaSb/(Al)GaAs quantum dots provide strong hole-confinement [2], with potential to provide long storage times at room temperature
This article may be downloaded for personal use only. Any other use requires prior permission of the...
We present optical studies of individual and few GaSb quantum rings embedded in a GaAs matrix. Contr...
The type II band alignment of GaSb quantum dots (QDs) in a GaAs matrix leads to peculiar optical and...
The interaction between nano-scale objects of different dimensionality, e.g. electrostatic Coulomb-c...
The potential for GaSb nanostructures embedded in GaAs to operate as charge-based memory elements at...
GaSb quantum dots embedded in GaAs-based device structures have exciting potential in a number of em...
A high-purity GaSb/GaAs quantum ring system is introduced that provides both strong hole-confinement...
Quantum dots fabricated using methods compatible with semiconductor manufacturing are promising for ...
Semiconductor nanostructures are appealing for use in applications of quantum information processing...
Non-volatile memories based on the flash architecture with self-assembled III–V quantum dots (SAQDs)...
We report low-temperature transport studies of parallel double quantum dots formed in GaSb/InAsSb co...
True sources of quantum light, where the number of photons in a pulse can be precisely tailored, pro...
We report low-temperature transport studies of parallel double quantum dots formed in GaSb/InAsSb co...
Qubits for quantum computer applications can be based on many different types of architectures and...
We explore the Coulomb binding of electrons to holes confined to type-II GaSb self-assembled quantum...
This article may be downloaded for personal use only. Any other use requires prior permission of the...
We present optical studies of individual and few GaSb quantum rings embedded in a GaAs matrix. Contr...
The type II band alignment of GaSb quantum dots (QDs) in a GaAs matrix leads to peculiar optical and...
The interaction between nano-scale objects of different dimensionality, e.g. electrostatic Coulomb-c...
The potential for GaSb nanostructures embedded in GaAs to operate as charge-based memory elements at...
GaSb quantum dots embedded in GaAs-based device structures have exciting potential in a number of em...
A high-purity GaSb/GaAs quantum ring system is introduced that provides both strong hole-confinement...
Quantum dots fabricated using methods compatible with semiconductor manufacturing are promising for ...
Semiconductor nanostructures are appealing for use in applications of quantum information processing...
Non-volatile memories based on the flash architecture with self-assembled III–V quantum dots (SAQDs)...
We report low-temperature transport studies of parallel double quantum dots formed in GaSb/InAsSb co...
True sources of quantum light, where the number of photons in a pulse can be precisely tailored, pro...
We report low-temperature transport studies of parallel double quantum dots formed in GaSb/InAsSb co...
Qubits for quantum computer applications can be based on many different types of architectures and...
We explore the Coulomb binding of electrons to holes confined to type-II GaSb self-assembled quantum...
This article may be downloaded for personal use only. Any other use requires prior permission of the...
We present optical studies of individual and few GaSb quantum rings embedded in a GaAs matrix. Contr...
The type II band alignment of GaSb quantum dots (QDs) in a GaAs matrix leads to peculiar optical and...