We report Coulomb renormalization and carrier thermal activation dynamics in self-assembled quantum dots following selective optical excitation in the ground state using a novel two-color pump-prob
We study Coulomb and carrier dynamics in self-assembled InAs/GaAs quantum dots at room temperature by two-color tunable differential transmission experiments, with resonant excitation in the ground
We study Coulomb blockade effects in the thermodynamic quantities of a weakly disordered metallic grain coupled to a metallic lead by a tunneling contact with a large conductance $g_T$.
We consider mesoscopic fluctuations of the Coulomb blockade oscillations in a disordered metallic grain in an external magnetic field coupled to a metallic lead by a tunneling contact with a large
Today single-electron devices are believed to be among the top candidates to replace standard complementary metal oxide silicon field effect transistor technology at the end of the conventional sem
We demonstrate that in a wide range of temperatures Coulomb drag between two weakly coupled quantum wires is dominated by processes with a small momentum transfer.
At low enough density, the screening length of a disordered interacting electron gas may become larger than its mean free path.
The dielectric loss in amorphous, thin film oxide insulators produces a real part of the ac conductivity with a frequency dependence sigma' (omega);omega sup s with s ~ 1.
A multi-quantum-wire laser operating in the one-dimensional (1D) ground state has been achieved in a very high uniformity structure that shows free-exciton emission with unprecedented narrow width
The effects of coupling between clockwise and counterclockwise modes in ring resonators due to back reflections from QPM gratings in nonlinear crystals are investigated.
