Modern electronic and optoelectronic devices are approaching nanometric dimensions
where microscopic details cannot be treated in an effective way. Atomistic approaches …

This paper presents a detailed assessment of the ability of the 240 Skyrme interaction
parameter sets in the literature to satisfy a series of criteria derived from macroscopic …

Silicon nanocrystals (NCs) represent one of the most promising material systems for light
emission applications in microphotonics. In recent years, several groups have reported on …

We present an atomistic description of the electronic and optical properties of In 0.25 Ga
0.75 N/GaN quantum wells. Our analysis accounts for fluctuations of well width, local alloy …

We report neutron scattering studies on two single crystal samples of the electron-doped (n-
type) superconducting (SC) cuprate N d 2-x C ex C u O 4 (x= 0.15) with T c= 18 and 25 K …

In this work we investigate the electronic and optical properties of self-assembled quantum
dots by means of a tight-binding model. Coulomb and dipole matrix elements are calculated …

We present an atomistic theoretical study of the temperature dependence of the competition
between Auger and radiative recombination in c-plane (In, Ga) N/GaN quantum wells with …

We report on a multiband microscopic theory of many-exciton complexes in self-assembled
quantum dots. The single particle states are obtained by three methods: single-band …

We present atomistic tight-binding theory of electronic structure and optical properties of
InAs/GaAs self-assembled quantum dots. The tight-binding model includes zincblende …

This paper compiles the model parameters and zero-temperature properties of an extensive
collection of published theoretical nuclear interactions, including 255 nonrelativistic (Skyrme …