Add to ORKGWe have studied the effect of molecular beam epitaxy growth conditions on the surface morphology of strained InAs/GaAs(331)A films. Our results reveal that InAs nanowires aligned along the [1 (1) over bar0] direction are formed under As-rich conditions, which is explained by the effect of anisotropic buffer layer surface roughing. Under In-rich conditions, however, the surface morphology of the InAs layers is characterized by a feature of island-pit pairs. In this case, cooperative nucleation of islands and pits can lower the activation barrier for domain growth. These results suggest that the surface morphology of strained InAs layers is highly controllable. (C) 2005 American Institute of Physics
We successfully grow high-quality wurtzite InAs nanowires on GaAs substrates. The influences of grow...
(Figure Presented) Rings around the wire: Novel hierarchical heterostructures, assembled by radial d...
A systematic investigation of the Au catalyst-assisted growth of epitaxial InAs nanowires (NW) on Ga...
Surface morphology evolution of strained InAs/GaAs(331)A films was systematically investigated in th...
Self-aligned InAs quantum wires (QWRs) or three-dimensional (3D) islands are fabricated on GaAs(331)...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Scanning tunnelling microscopy has been used to investigate dislocation-induced surface morphologica...
We successfully grow high-quality wurtzite InAs nanowires on GaAs substrates. The influences of grow...
(Figure Presented) Rings around the wire: Novel hierarchical heterostructures, assembled by radial d...
A systematic investigation of the Au catalyst-assisted growth of epitaxial InAs nanowires (NW) on Ga...
Surface morphology evolution of strained InAs/GaAs(331)A films was systematically investigated in th...
Self-aligned InAs quantum wires (QWRs) or three-dimensional (3D) islands are fabricated on GaAs(331)...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Scanning tunnelling microscopy has been used to investigate dislocation-induced surface morphologica...
We successfully grow high-quality wurtzite InAs nanowires on GaAs substrates. The influences of grow...
(Figure Presented) Rings around the wire: Novel hierarchical heterostructures, assembled by radial d...
A systematic investigation of the Au catalyst-assisted growth of epitaxial InAs nanowires (NW) on Ga...