Quantum technologies based on photons will likely require an integrated optics architecture for improved performance, miniaturization, and scalability. We demonstrate high-fidelity silica-on-silicon integrated optical realizations of key quantum photonic circuits, including two-photon quantum interference with a visibility of 94.8 ± 0.5%; a controlled-NOT gate with an average logical basis fidelity of 94.3 ± 0.2%; and a path-entangled state of two photons with fidelity of >92%. These results show that it is possible to directly "write" sophisticated photonic quantum circuits onto a silicon chip, which will be of benefit to future quantum technologies based on photons, including information processing, communication, metrology, and lithog...
Silica provides a low-loss platform for integrated optics. With demonstrations including teleportati...
We present details of the UV-written silica-on-silicon platform for integrated quantum optics with r...
Photonics is a promising platform for implementing universal quantum information processing. Its mai...
Quantum technologies based on photons will likely require an integrated optics architecture for impr...
Quantum technologies based on photons will likely require integrated optics architectures for improv...
Integrated quantum photonics is now seen as one of the promising approaches to realize scalable quan...
Integrated quantum photonic waveguide circuits are a promising approach to realizing future photonic...
Building complex quantum systems has the potential to reveal phenomena that cannot be studied using ...
Abstract: We describe our developments in integrated quantum photonics, including waveguide circuit...
A silicon photonic quantum waveguide circuit capable of generating and manipulating quantum states o...
Quantum information science provides new paradigms of communication, computation and measurement; su...
Integrated optics is becoming increasingly important for applications in quantum information process...
Optical quantum Information Processing makes use of the quantum mechanical properties of single phot...
Silicon-on-insulator (SOI) wafers have been developed for electronic integrated circuits, but are al...
This is a short overview explaining how building a large-scale, silicon-photonic quantum c...
Silica provides a low-loss platform for integrated optics. With demonstrations including teleportati...
We present details of the UV-written silica-on-silicon platform for integrated quantum optics with r...
Photonics is a promising platform for implementing universal quantum information processing. Its mai...
Quantum technologies based on photons will likely require an integrated optics architecture for impr...
Quantum technologies based on photons will likely require integrated optics architectures for improv...
Integrated quantum photonics is now seen as one of the promising approaches to realize scalable quan...
Integrated quantum photonic waveguide circuits are a promising approach to realizing future photonic...
Building complex quantum systems has the potential to reveal phenomena that cannot be studied using ...
Abstract: We describe our developments in integrated quantum photonics, including waveguide circuit...
A silicon photonic quantum waveguide circuit capable of generating and manipulating quantum states o...
Quantum information science provides new paradigms of communication, computation and measurement; su...
Integrated optics is becoming increasingly important for applications in quantum information process...
Optical quantum Information Processing makes use of the quantum mechanical properties of single phot...
Silicon-on-insulator (SOI) wafers have been developed for electronic integrated circuits, but are al...
This is a short overview explaining how building a large-scale, silicon-photonic quantum c...
Silica provides a low-loss platform for integrated optics. With demonstrations including teleportati...
We present details of the UV-written silica-on-silicon platform for integrated quantum optics with r...
Photonics is a promising platform for implementing universal quantum information processing. Its mai...