Add to ORKGPhotonic crystal cavities can localize light into nanoscale volumes with high quality factors. This permits a strong interaction between light and matter, which is important for the construction of classical light sources with improved properties (e.g., low threshold lasers) and of nonclassical light sources (such as single and entangled photon sources) that are crucial pieces of hardware of quantum information processing systems. This article will review some of our recent experimental and theoretical results on the interaction between single quantum dots and photonic crystal cavity field, and on the integration of multiple photonic crystal devices into functional circuits for quantum information processing
A quantum dot strongly coupled to a photonic crystal resonator is used to investigate cavity quantum...
Photonic crystal (PC) cavities enable localization of light into volumes (V) below a cubic optical w...
Photonic crystal (PC) cavities enable localization of light into volumes (V) below a cubic optical w...
Quantum dots in photonic crystals are interesting both as a testbed for fundamental cavity quantum e...
A single semiconductor quantum dot that is strongly coupled to a photonic crystal nanocavity yields ...
This article reviews our recent work on the development of nanophotonic devices for quantum informat...
We discuss recent our recent progress on functional photonic crystals devices and circuits for class...
We discuss recent our recent progress on functional photonic crystals devices and circuits for class...
Abstract: Methods to improve single photon generation via photon-blockade in a photonic-crystal cavi...
This article reviews our recent work on the development of nanophotonic devices for quantum informat...
The first solid state structures for cavity quantum electrodynamic studies were realized analog to e...
The first solid state structures for cavity quantum electrodynamic studies were realized analog to e...
Summary form only given. Pure and deterministic single-photon sources, obtained by coupling a semico...
Summary form only given. Pure and deterministic single-photon sources, obtained by coupling a semico...
Summary form only given. Pure and deterministic single-photon sources, obtained by coupling a semico...
A quantum dot strongly coupled to a photonic crystal resonator is used to investigate cavity quantum...
Photonic crystal (PC) cavities enable localization of light into volumes (V) below a cubic optical w...
Photonic crystal (PC) cavities enable localization of light into volumes (V) below a cubic optical w...
Quantum dots in photonic crystals are interesting both as a testbed for fundamental cavity quantum e...
A single semiconductor quantum dot that is strongly coupled to a photonic crystal nanocavity yields ...
This article reviews our recent work on the development of nanophotonic devices for quantum informat...
We discuss recent our recent progress on functional photonic crystals devices and circuits for class...
We discuss recent our recent progress on functional photonic crystals devices and circuits for class...
Abstract: Methods to improve single photon generation via photon-blockade in a photonic-crystal cavi...
This article reviews our recent work on the development of nanophotonic devices for quantum informat...
The first solid state structures for cavity quantum electrodynamic studies were realized analog to e...
The first solid state structures for cavity quantum electrodynamic studies were realized analog to e...
Summary form only given. Pure and deterministic single-photon sources, obtained by coupling a semico...
Summary form only given. Pure and deterministic single-photon sources, obtained by coupling a semico...
Summary form only given. Pure and deterministic single-photon sources, obtained by coupling a semico...
A quantum dot strongly coupled to a photonic crystal resonator is used to investigate cavity quantum...
Photonic crystal (PC) cavities enable localization of light into volumes (V) below a cubic optical w...
Photonic crystal (PC) cavities enable localization of light into volumes (V) below a cubic optical w...