Summary form only given. Pure and deterministic single-photon sources, obtained by coupling a semiconductor quantum dot (QD) to a photonic crystal (PhC) cavity, constitute a key component for quantum photonic integrated circuits (QPICs) [1]. These sources are commonly excited by a laser pump, which involves some practical limitations in scaling the number of integrated cavity-emitter nodes and is hardly compatible with on-chip single-photon detectors. Here, we present the first demonstration of electrical injection of single dot lines coupled to photonic crystal modes. The latter can be electrically re-configured to bring multiple cavity-emitters into energy resonance
We report the full energy control over a semiconductor cavity-emitter system, consisting of single S...
We demonstrate the efficient coupling of single photons emitted by single quantum dots (QDs) in a ph...
We report the control over the spontaneous emission of energy-tunable quantum emitters embedded in p...
Summary form only given. Pure and deterministic single-photon sources, obtained by coupling a semico...
A single quantum dot deterministically coupled to a photonic crystal environment constitutes an indi...
Quantum photonic integrated circuits hold great potential as a novel class of semiconductor technolo...
Quantum Integrated Photonics (QIP) harnesses quantum-states of light on tiny chips, from generation ...
The first solid state structures for cavity quantum electrodynamic studies were realized analog to e...
In order to harness the enormous potential of schemes in optical quantum information processing, rea...
We demonstrate tunable on-chip single photon sources using the Stark tuning of single quantum dot (Q...
Recently, the emission of single photons with emission wavelength in the 1.3 ??m telecommunication w...
Photonic crystal cavities can localize light into nanoscale volumes with high quality factors. This ...
We report the full energy control over a semiconductor cavity-emitter system, consisting of single S...
We demonstrate the efficient coupling of single photons emitted by single quantum dots (QDs) in a ph...
We report the control over the spontaneous emission of energy-tunable quantum emitters embedded in p...
Summary form only given. Pure and deterministic single-photon sources, obtained by coupling a semico...
A single quantum dot deterministically coupled to a photonic crystal environment constitutes an indi...
Quantum photonic integrated circuits hold great potential as a novel class of semiconductor technolo...
Quantum Integrated Photonics (QIP) harnesses quantum-states of light on tiny chips, from generation ...
The first solid state structures for cavity quantum electrodynamic studies were realized analog to e...
In order to harness the enormous potential of schemes in optical quantum information processing, rea...
We demonstrate tunable on-chip single photon sources using the Stark tuning of single quantum dot (Q...
Recently, the emission of single photons with emission wavelength in the 1.3 ??m telecommunication w...
Photonic crystal cavities can localize light into nanoscale volumes with high quality factors. This ...
We report the full energy control over a semiconductor cavity-emitter system, consisting of single S...
We demonstrate the efficient coupling of single photons emitted by single quantum dots (QDs) in a ph...
We report the control over the spontaneous emission of energy-tunable quantum emitters embedded in p...