Electron accumulation in graphene by interaction with optically excited quantum dots

It is well known that nonequilibrium populations of phonons can be generated in bulk semiconductors by the relaxation of photoexcited hot electrons. In this paper we demonstrate that nonequilibrium phonons can also be generated in quantum wells by picosecond lasers and then probed by time-resolved R

We study the effect of electron-electron interactions between several electrons in a quantum dot with a tapered constriction by monitoring the behavior of the position of the absolute charge density maximum, Z max , of each occupied state under DC electric fields. States of this system are localized

The spin accumulation in a single quantum dot (QD) ring is investigated in the presence of both a magnetic flux penetrating though it and the Rashba spin-orbital (RSO) interaction. The RSO interaction, which is assumed to exist only in the QD and other regions are free from it, induces a spin-depend

We have investigated the far infrared magneto-optical transitions in InAs quantum dots. A purely electronic model being unable to account for the experimental data, we have calculated the polaron states and the energies of the dipolar electric transition resulting from the coupling between the mixed