Add to ORKGA systematic investigation of the strain distribution of self-organized, lens-shaped quantum dot in the case of growth direction on (001) substrate was presented. The three-dimensional finite element analysis for an array of dots was used for the strain calculation. The dependence of the strain energy density distribution on the thickness of the capping layer was investigated in detail when the elastic characteristics of the matrix material were anisotropic. It is shown that the elastic anisotropic greatly influences the stress, strain, and strain energy density in the quantum dot structures. The anisotropic ratio of the matrix material and the combination with different thicknesses of the capping layer, may lead to different strain energy ...
We studied the stress field at the surface of GaAs capping layers of variable thicknesses burying In...
Abstract: Strain distribution in a pyramidal InAs/GaAs quantum dot is investigated. The strain fiel...
In this paper, we perform systematic calculations of the stress and strain distributions in InAs/GaA...
Vertical and lateral ordering of quantum dots in superlattices is shown to be determined by the elas...
The morphologies of quantum dots and distributions of stresses in and around quantum dots ...
The stress and strain fields in self-organized growth coherent quantum dots (QD) structures are inve...
We investigated theoretically the distribution of lattice distortion in three dimension around self-...
We have established a new concept for creating ordered arrays of quantum dots by self-organized epit...
Extensive research over the past several years has revealed graded composition and strong atomistic ...
On the basis of the finite element approach, we systematically investigated the strain field distrib...
We have studied the effects of strain on individual self-assembled quantum dots (QDs) exemplified by...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
A theoretical model was developed using GreenˇŚs function with an anisotropic elastic tensor to stud...
We studied the stress field at the surface of GaAs capping layers of variable thicknesses burying In...
Abstract: Strain distribution in a pyramidal InAs/GaAs quantum dot is investigated. The strain fiel...
In this paper, we perform systematic calculations of the stress and strain distributions in InAs/GaA...
Vertical and lateral ordering of quantum dots in superlattices is shown to be determined by the elas...
The morphologies of quantum dots and distributions of stresses in and around quantum dots ...
The stress and strain fields in self-organized growth coherent quantum dots (QD) structures are inve...
We investigated theoretically the distribution of lattice distortion in three dimension around self-...
We have established a new concept for creating ordered arrays of quantum dots by self-organized epit...
Extensive research over the past several years has revealed graded composition and strong atomistic ...
On the basis of the finite element approach, we systematically investigated the strain field distrib...
We have studied the effects of strain on individual self-assembled quantum dots (QDs) exemplified by...
Working under critical conditions for dot nucleation in a Molecular Beam Epitaxy chamber, we were ab...
A theoretical model was developed using GreenˇŚs function with an anisotropic elastic tensor to stud...
We studied the stress field at the surface of GaAs capping layers of variable thicknesses burying In...
Abstract: Strain distribution in a pyramidal InAs/GaAs quantum dot is investigated. The strain fiel...
In this paper, we perform systematic calculations of the stress and strain distributions in InAs/GaA...