Add to ORKGThe continuum theory of elastic dislocations is applied to estimate the critical thickness of a strained layer bonded to a substrate for a given mismatch strain. The formation of strained epitaxial layers is of interest due to their special electronic or optical properties, and critical thickness is understood to be the smallest thickness at which interface dislocations conform "spontaneously." The criterion invoked here is based on the work done by the layer stress in driving a threading dislocation to lay down a misfit dislocation along the layer-substrate interface, and it is applied in a way that leads to a result that is independent of the deflected shape of the threading dislocation. The general form of the dependence of cri...
We have studied numerically the stability and defect nucleation in epitaxial layers on a substrate w...
The nucleation of misfit dislocations from the surface in strained-layer heterostructures is conside...
[[abstract]]The effect of substrate modulus difference on dislocation formation in an epitaxial film...
Continuum elastic theory is applied to the formation of misfit dislocations and point defects in str...
This process was considered theoretically. By using elasticity theory, the corresponding critical th...
The critical epilayer thickness for the formation of misfit dislocations at the interface between an...
It is shown that very large stresses may be present in the thin films that comprise integrated circu...
[[abstract]]The system of an epitaxial film on a semi-infinite substrate of a different material is ...
The reliability of semiconductor devices depends upon the stability of the constituent materials. St...
We study numerically the minimum energy path and energy barriers for dislocation nucleation in a two...
We numerically study the energetics and atomic mechanisms of misfit dislocation nucleation and stres...
The strain relaxation in buried strained layers is investigated using an elastic continuum model. T...
The total energy of an array of dislocations in a strained epitaxial layer is composed of the self e...
The mechanisms whereby 60° misfit dislocations are generated from dissociated threading dislocations...
The critical thickness of an epilayer on a substrate with different elastic constants is investigate...
We have studied numerically the stability and defect nucleation in epitaxial layers on a substrate w...
The nucleation of misfit dislocations from the surface in strained-layer heterostructures is conside...
[[abstract]]The effect of substrate modulus difference on dislocation formation in an epitaxial film...
Continuum elastic theory is applied to the formation of misfit dislocations and point defects in str...
This process was considered theoretically. By using elasticity theory, the corresponding critical th...
The critical epilayer thickness for the formation of misfit dislocations at the interface between an...
It is shown that very large stresses may be present in the thin films that comprise integrated circu...
[[abstract]]The system of an epitaxial film on a semi-infinite substrate of a different material is ...
The reliability of semiconductor devices depends upon the stability of the constituent materials. St...
We study numerically the minimum energy path and energy barriers for dislocation nucleation in a two...
We numerically study the energetics and atomic mechanisms of misfit dislocation nucleation and stres...
The strain relaxation in buried strained layers is investigated using an elastic continuum model. T...
The total energy of an array of dislocations in a strained epitaxial layer is composed of the self e...
The mechanisms whereby 60° misfit dislocations are generated from dissociated threading dislocations...
The critical thickness of an epilayer on a substrate with different elastic constants is investigate...
We have studied numerically the stability and defect nucleation in epitaxial layers on a substrate w...
The nucleation of misfit dislocations from the surface in strained-layer heterostructures is conside...
[[abstract]]The effect of substrate modulus difference on dislocation formation in an epitaxial film...