Add to ORKGWe develop the mechanics theory of a phenomenon in which strain is induced in nanoscale structures in the absence of applied stress, due solely to the presence of quantum mechanical confinement of charge carriers. The direct effect of strain on electronic structure has been widely studied in recent years, but the “reverse coupling” effect that we investigate, which is only appreciable in the smallest structures, has been largely ignored even though its effects are present in first principles atomistic calculations. We develop a simple effective mass approach that can be used to model this universal physical phenomenon allowing a transparent scheme to identify its occurrence. We relate quantum field induced strain to acoustic polarons and id...
We investigate the electromechanical coupling in single-layer 2d materials. For non-Bravais lattices...
An analysis is presented on the effect of the strain field originating from a subsurface stressor (p...
In a series of recent papers we demonstrated that coupled electro-mechanical effects can lead to pro...
AbstractWe develop the mechanics theory of a phenomenon in which strain is induced in nanoscale stru...
In this dissertation we explore the junction of quantum mechanics and elas- ticity. Specifically, we...
Nanostructured semiconducting materials such as nanoparticles, quantum dots, nanowires, nanorods, na...
An array of semiconductor quantum dots is studied computationally using an approach that couples lin...
International audienceWe demonstrate experimentally the possibility to manipulate the coupling stren...
We describe an analytical method to calculate the strain field and the corresponding band gap modula...
Recent progress in nanotechnology has allowed the fabrication of new hybrid systems in which a singl...
A long-standing mystery in the field of semiconductor quantum dots (QDs) is: Why are there so many u...
Abstract: The effect of mechanical strain on the quantum confinement properties of quantum dots is a...
Semiconductor quantum dots are of particular interest, both for fundamental research and possible ap...
© 2021, The Korean Physical Society.We analyze the effects of the strain-induced pseudo-magnetic fie...
This is a theoretical and computational study of strain and internal (spontaneous and piezoelectric)...
We investigate the electromechanical coupling in single-layer 2d materials. For non-Bravais lattices...
An analysis is presented on the effect of the strain field originating from a subsurface stressor (p...
In a series of recent papers we demonstrated that coupled electro-mechanical effects can lead to pro...
AbstractWe develop the mechanics theory of a phenomenon in which strain is induced in nanoscale stru...
In this dissertation we explore the junction of quantum mechanics and elas- ticity. Specifically, we...
Nanostructured semiconducting materials such as nanoparticles, quantum dots, nanowires, nanorods, na...
An array of semiconductor quantum dots is studied computationally using an approach that couples lin...
International audienceWe demonstrate experimentally the possibility to manipulate the coupling stren...
We describe an analytical method to calculate the strain field and the corresponding band gap modula...
Recent progress in nanotechnology has allowed the fabrication of new hybrid systems in which a singl...
A long-standing mystery in the field of semiconductor quantum dots (QDs) is: Why are there so many u...
Abstract: The effect of mechanical strain on the quantum confinement properties of quantum dots is a...
Semiconductor quantum dots are of particular interest, both for fundamental research and possible ap...
© 2021, The Korean Physical Society.We analyze the effects of the strain-induced pseudo-magnetic fie...
This is a theoretical and computational study of strain and internal (spontaneous and piezoelectric)...
We investigate the electromechanical coupling in single-layer 2d materials. For non-Bravais lattices...
An analysis is presented on the effect of the strain field originating from a subsurface stressor (p...
In a series of recent papers we demonstrated that coupled electro-mechanical effects can lead to pro...