The recent progress in integrated quantum optics has set the stage for the development of
an integrated platform for quantum information processing with photons, with potential …

Quantum mechanics promises to have a strong impact on many aspects of research and
technology, improving classical analogues via purely quantum effects. A large variety of …

In recent years, research on integrated quantum circuits has developed rapidly and exciting
results have been achieved. The overarching goal of this emerging research direction in the …

The controlled generation of non-classical states of light is a challenging task at the heart of
quantum optics. Aside from the mere spirit of science, the related research is strongly driven …

We demonstrate non-perturbative coupling between a single self-assembled InGaAs
quantum dot and an external fiber-mirror-based microcavity. Our results extend the previous …

We have developed a technique to align a two-dimensional photonic-crystal nanocavity
(PCNC) with an indium arsenide/gallium arsenide self-assembled quantum dot (QD), using …

We report on the epitaxial growth, theoretical modeling, and structural as well as optical
investigation of multi-layer, site-controlled quantum dots fabricated using the buried stressor …

The main challenge in the development of non-classical light sources remains their
brightness that limits the data transmission and processing rates as well as the realization of …

Among the diverse platforms of quantum light sources, epitaxially grown semiconductor
quantum dots (QDs) are one of the most attractive workhorses for realizing quantum …

Atomic force microscopy (AFM) assisted local anodic oxidation (LAO) offers advantages over
other semiconductor fabrication techniques as it is a low contamination method. We …