Photonic nanostructures provide a means of tailoring the interaction between light and
matter and the past decade has witnessed tremendous experimental and theoretical …

Instabilities in semiconductor heterostructure growth can be exploited for the self-organized
formation of nanostructures, allowing for carrier confinement in all three spatial dimensions …

Monolayer transition metal dichalcogenide heterojunctions, including vertical and lateral p–
n junctions, have attracted considerable attention due to their potential applications in …

We have studied the optical properties of metallic nanoparticles with arbitrary shape. We
performed theoretical calculations of the absorption, extinction, and scattering efficiencies …

In this paper the relationship between the classical density functional theory of freezing and
phase-field modeling is examined. More specifically a connection is made between the …

Many potential applications of semiconductor nanocrystals are hindered by nonradiative
Auger recombination wherein the electron− hole (exciton) recombination energy is …

We report the direct observation of quantum coupling in individual quantum dot molecules
and its manipulation using static electric fields. A pronounced anticrossing of different …

The general trend in modern solid state physics and technology is to make things smaller.
The size of key elements in modern devices approaches the nanometer scale, for both …

Self-assembled quantum dots are often modeled by continuum models (effective mass or k∙
p) that assume the symmetry of the dot to be that of its overall geometric shape. Lens …

We report first quantitative measurements by energy-selected imaging in a transmission
electron microscope of In segregation within an uncapped islanded In 0.25 Ga 0.75 As layer …