Add to ORKGJournal ArticlePseudomorphic three-dimensional Ge nanocrystals (quantum dots) grown on thin silicon-on-insulator substrates can induce significant bending of the silicon template layer that is local on the nanometer scale. We use molecular dynamics simulations and analytical models to confirm the local bending of the Si template and to show that its magnitude approaches the maximum value for a freestanding membrane. The requisite greatly enhanced viscous flow of SiO2 underneath the Si layer is consistent with the dependence of the viscosity of SiO2 on shear stress
Journal ArticleWe demonstrate, by theoretical analysis and molecular dynamics simulation, a mechanis...
Silicon-Germanium (Si$_{1-x}$Ge$_x$) layers are commonly used as stressors in the gate of MOSFET dev...
International audienceWe report a novel approach for engineering tensely strained Si layers on a rel...
Journal ArticleWe perform atomistic simulations to compute bending of freestanding nanoscale thin Si...
Journal ArticleThe strain driven self-assembly of faceted Ge nanocrystals during epitaxy on Si(001)...
Ultrathin strained silicon-on-insulator (SSOI) has been in the limelight of device scientists and en...
International audienceStrain engineering is seen as a cost-effective way to improve the properties o...
International audienceStrain engineering is seen as a cost-effective way to improve the properties o...
Undercut or fully released silicon template layers of ultrathin silicon-on-insulator are structurall...
The strain driven self-assembly of faceted Ge nanocrystals during epitaxy on Si(001) to form quantum...
Journal ArticleMechanical bending is ubiquitous in heteroepitaxial growth of thin films where the st...
Cataloged from PDF version of article.Strain has a crucial effect on the optical and electronic prop...
Strain has a crucial effect on the optical and electronic properties of nanostructures. We calculate...
International audienceThe growth of heteroepitaxial planar fully strained SiGe layers with high Ge c...
Freestanding, edge-supported silicon nanomembranes are defined by selective underetching of patterne...
Journal ArticleWe demonstrate, by theoretical analysis and molecular dynamics simulation, a mechanis...
Silicon-Germanium (Si$_{1-x}$Ge$_x$) layers are commonly used as stressors in the gate of MOSFET dev...
International audienceWe report a novel approach for engineering tensely strained Si layers on a rel...
Journal ArticleWe perform atomistic simulations to compute bending of freestanding nanoscale thin Si...
Journal ArticleThe strain driven self-assembly of faceted Ge nanocrystals during epitaxy on Si(001)...
Ultrathin strained silicon-on-insulator (SSOI) has been in the limelight of device scientists and en...
International audienceStrain engineering is seen as a cost-effective way to improve the properties o...
International audienceStrain engineering is seen as a cost-effective way to improve the properties o...
Undercut or fully released silicon template layers of ultrathin silicon-on-insulator are structurall...
The strain driven self-assembly of faceted Ge nanocrystals during epitaxy on Si(001) to form quantum...
Journal ArticleMechanical bending is ubiquitous in heteroepitaxial growth of thin films where the st...
Cataloged from PDF version of article.Strain has a crucial effect on the optical and electronic prop...
Strain has a crucial effect on the optical and electronic properties of nanostructures. We calculate...
International audienceThe growth of heteroepitaxial planar fully strained SiGe layers with high Ge c...
Freestanding, edge-supported silicon nanomembranes are defined by selective underetching of patterne...
Journal ArticleWe demonstrate, by theoretical analysis and molecular dynamics simulation, a mechanis...
Silicon-Germanium (Si$_{1-x}$Ge$_x$) layers are commonly used as stressors in the gate of MOSFET dev...
International audienceWe report a novel approach for engineering tensely strained Si layers on a rel...