Add to ORKGInternational audienceWe review the recent development of high efficiency single photon sources based on a single quantum dot in a photonic wire. Unlike cavity-based devices, very pure single photon emission and efficiencies exceeding 0.7 photon per pulse are jointly demonstrated under non-resonant pumping conditions. By placing a tip-shaped or trumpet-like tapering at the output end of the wire, a highly directional Gaussian far-field emission pattern is obtained. More generally, a photonic wire containing a quantum dot appears as an attractive template to explore and exploit in a solid-state system the unique optical properties of "one-dimensional atoms"
The catalyst-assisted growth of semiconductor nanowires heterostructures offers a very flexible way ...
International audienceEfficient coupling between a localized quantum emitter and a well defined opti...
Efficient sources of indistinguishable single photons are a key resource for various applications in...
International audienceThe development of efficient solid-state sources of single photons is a major ...
We present a novel single-mode single photon source exploiting the emission of a semiconductor quan...
Spontaneous emission of luminescent material is strongly dependent on the surrounding electromagneti...
| openaire: EC/H2020/820423/EU//S2QUIPSingle-photon sources are one of the key components in quantum...
Single quantum dots embedded in tapered nanowire waveguides have emerged as leading candidates for d...
Optoelectronic devices that provide non-classical light states on demand have a broad range of appli...
The ability to achieve near-unity light-extraction efficiency is necessary for a truly deterministic...
In this thesis work, I studied individual quantum dots embedded in one-dimensional nanostructures ca...
Significant advances have been made in the past five years in realizing photon sources based on vari...
This thesis presents the realization of an efficient single-photon source based on an InAs quantum d...
We report on a quasi-planar quantum-dot-based single-photon source that shows an unprecedented high ...
Single photons are a fundamental element of most quantum optical technologies. The ideal single-phot...
The catalyst-assisted growth of semiconductor nanowires heterostructures offers a very flexible way ...
International audienceEfficient coupling between a localized quantum emitter and a well defined opti...
Efficient sources of indistinguishable single photons are a key resource for various applications in...
International audienceThe development of efficient solid-state sources of single photons is a major ...
We present a novel single-mode single photon source exploiting the emission of a semiconductor quan...
Spontaneous emission of luminescent material is strongly dependent on the surrounding electromagneti...
| openaire: EC/H2020/820423/EU//S2QUIPSingle-photon sources are one of the key components in quantum...
Single quantum dots embedded in tapered nanowire waveguides have emerged as leading candidates for d...
Optoelectronic devices that provide non-classical light states on demand have a broad range of appli...
The ability to achieve near-unity light-extraction efficiency is necessary for a truly deterministic...
In this thesis work, I studied individual quantum dots embedded in one-dimensional nanostructures ca...
Significant advances have been made in the past five years in realizing photon sources based on vari...
This thesis presents the realization of an efficient single-photon source based on an InAs quantum d...
We report on a quasi-planar quantum-dot-based single-photon source that shows an unprecedented high ...
Single photons are a fundamental element of most quantum optical technologies. The ideal single-phot...
The catalyst-assisted growth of semiconductor nanowires heterostructures offers a very flexible way ...
International audienceEfficient coupling between a localized quantum emitter and a well defined opti...
Efficient sources of indistinguishable single photons are a key resource for various applications in...