Add to ORKGInAs quantum dots (QDs) are grown on the cleaved edge of an InxGa1-xAs/GaAs supperlattice experimentally and a good linear alignment of these QDs on the surface of an InxGa1-xAs layer has been realized. The modulation effects of periodic strain on the substrate are investigated theoretically using a kinetic Monte Carlo method. Our results show that a good alignment of QDs can be achieved when the strain energy reaches 2% of the atomic binding energy. The simulation results are in excellent qualitative agreement with our experiments. (C) 2005 American Institute of Physics
The utilization of self-assembling phenomena is important in nano material processes. For the fabric...
The strain effect on the band structure of InAs/GaAs quantum dots has been investigated. 1 mu m thic...
We study the growth of (In,Ga)As on GaAs (311)A and (311)B substrates by molecular-beam epitaxy (MBE...
InAsquantum dots(QDs) are grown on the cleaved edge of an InₓGa₁ˍₓAs∕GaAs supperlattice experimental...
Strain engineering during the capping of III-V quantum dots has been explored as a means to control ...
We report the growth of well-ordered InAs QD chains by molecular beam epitaxy system. In order to an...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Performing an event-based continuous kinetic Monte Carlo simulation, we investigate the modulated ef...
Semiconductor nanostructures, and particularly quantum dots (QDs), have promising poten-tial for tec...
Semiconductor nanostructures, and particularly quantum dots (QDs), have promising potential for tech...
We investigate in detail the role of strain relaxation and capping overgrowth in the self-assembly o...
Several multilayer InAs/GaAs(001) samples were grown in a Molecular Beam Epitaxy chamber under criti...
Stress and strain distributions in and around a single or two-coupled pyramidal InAs quantum dots (Q...
InAs quantum dots (QDs) were grown On Ultra-thin In0.15Ga0.85As strained layers by molecular beam ep...
The utilization of self-assembling phenomena is important in nano material processes. For the fabric...
The strain effect on the band structure of InAs/GaAs quantum dots has been investigated. 1 mu m thic...
We study the growth of (In,Ga)As on GaAs (311)A and (311)B substrates by molecular-beam epitaxy (MBE...
InAsquantum dots(QDs) are grown on the cleaved edge of an InₓGa₁ˍₓAs∕GaAs supperlattice experimental...
Strain engineering during the capping of III-V quantum dots has been explored as a means to control ...
We report the growth of well-ordered InAs QD chains by molecular beam epitaxy system. In order to an...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
Performing an event-based continuous kinetic Monte Carlo simulation, we investigate the modulated ef...
Semiconductor nanostructures, and particularly quantum dots (QDs), have promising poten-tial for tec...
Semiconductor nanostructures, and particularly quantum dots (QDs), have promising potential for tech...
We investigate in detail the role of strain relaxation and capping overgrowth in the self-assembly o...
Several multilayer InAs/GaAs(001) samples were grown in a Molecular Beam Epitaxy chamber under criti...
Stress and strain distributions in and around a single or two-coupled pyramidal InAs quantum dots (Q...
InAs quantum dots (QDs) were grown On Ultra-thin In0.15Ga0.85As strained layers by molecular beam ep...
The utilization of self-assembling phenomena is important in nano material processes. For the fabric...
The strain effect on the band structure of InAs/GaAs quantum dots has been investigated. 1 mu m thic...
We study the growth of (In,Ga)As on GaAs (311)A and (311)B substrates by molecular-beam epitaxy (MBE...