Hyperentanglement is a promising resource in quantum information processing with its high
capacity character, defined as the entanglement in multiple degrees of freedom (DOFs) of a …

Due to their interesting properties, research on colloidal nanocrystals has moved in the last
few years from fundamental research to first applications in materials science and life …

This review seeks to extend the scope of both the experimental and theoreticalwork carried
out since I completed my 1993 review on the electronic, optical, andto a lesser extent, the …

We present a systematic investigation of the elastic, electronic, and linear optical properties
of quantum dot double heterostructures in the frame of eight-band k⋅ p theory. Numerical …

A study of quantum box transitions coupled to three-dimensionally confined photonic modes
in pillar microcavities is presented, focusing on the conditions for achieving a vacuum-field …

We propose a quantum nondemolition method—a giant optical Faraday rotation near the
resonant regime to measure a single-electron spin in a quantum dot inside a microcavity …

We adopt an atomistic pseudopotential description of the electronic structure of self-
assembled, lens-shaped InAs quantum dots within the “linear combination of bulk bands” …

The authors report on Al As∕ Ga As micropillar cavities with unprecedented quality factors
based on high reflectivity distributed Bragg reflectors (DBRs). Due to an increased number …

Cavity-enhanced emission of electrically controlled semiconductor quantum dots (QDs) is
essential in the development of bright quantum devices for real-world quantum photonic …

We show how the optical properties of a single semiconductor quantum dot can be
controlled with a small dc voltage applied to a gate electrode. We find that the transmission …