Integrated quantum photonic technologies hold a great promise for application in quantum information processing. A major challenge is to integrate multiple single photon sources on a chip. Quantum dots are bright sources of high purity single photons, and photonic crystals can provide efficient photonic platforms for generating and manipulating single photons from integrated quantum dots. However, integrating multiple quantum dots with photonic crystal devices still remains as a challenging task due to the spectral randomness of the emitters. Here, we present the integration of multiple quantum dots with individual photonic crystal cavities and report quantum interference from chip-integrated multiple quantum dots. To solve the problem of s...
In order to harness the enormous potential of schemes in optical quantum information processing, rea...
We demonstrate generation of heralded single photons in silica photonic chips with a preparation eff...
Photonic quantum technology provides a viable route to quantum communication, quantum simulation, an...
Quantum dots provide a bright source of single photons with high purity and indistinguishability, br...
Future scalable photonic quantum information processing relies on the ability of integrating multipl...
We have recently developed a technique for local, reversible tuning of individual quantum dots on a ...
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 ...
Scaling-up optical quantum technologies requires a combination of highly efficient multi-photon sour...
We demonstrate several integrated photonics structures incorporating site-controlled quantum dots an...
Summary form only given. Pure and deterministic single-photon sources, obtained by coupling a semico...
Photonic crystal cavities can localize light into nanoscale volumes with high quality factors. This ...
Quantum interference between indistinguishable photons are important for a broad range of applicatio...
This thesis describes the optical spectroscopic measurements of III-V nano-photonic circuit elements...
We demonstrate the generation of heralded single photons in silica photonic chips with a preparation...
In order to harness the enormous potential of schemes in optical quantum information processing, rea...
We demonstrate generation of heralded single photons in silica photonic chips with a preparation eff...
Photonic quantum technology provides a viable route to quantum communication, quantum simulation, an...
Quantum dots provide a bright source of single photons with high purity and indistinguishability, br...
Future scalable photonic quantum information processing relies on the ability of integrating multipl...
We have recently developed a technique for local, reversible tuning of individual quantum dots on a ...
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 ...
Scaling-up optical quantum technologies requires a combination of highly efficient multi-photon sour...
We demonstrate several integrated photonics structures incorporating site-controlled quantum dots an...
Summary form only given. Pure and deterministic single-photon sources, obtained by coupling a semico...
Photonic crystal cavities can localize light into nanoscale volumes with high quality factors. This ...
Quantum interference between indistinguishable photons are important for a broad range of applicatio...
This thesis describes the optical spectroscopic measurements of III-V nano-photonic circuit elements...
We demonstrate the generation of heralded single photons in silica photonic chips with a preparation...
In order to harness the enormous potential of schemes in optical quantum information processing, rea...
We demonstrate generation of heralded single photons in silica photonic chips with a preparation eff...
Photonic quantum technology provides a viable route to quantum communication, quantum simulation, an...