We demonstrate generation of heralded single photons in silica photonic chips with a preparation efficiency of 80% and single photon purity of 0:86. We show multiple indistinguishable photon sources on a single chip with HOM-dip visibilities of up to 95%. © OSA 2014
Integrated quantum photonic technologies hold a great promise for application in quantum information...
The non-deterministic nature of photon sources is a key limitation for single-photon quantum process...
The field of optical quantum information processing uses and manipulates the state of light to imple...
We demonstrate the generation of heralded single photons in silica photonic chips with a preparation...
Interference between independent single photons is perhaps the most fundamental interaction in quant...
Scaling-up optical quantum technologies requires a combination of highly efficient multi-photon sour...
Quantum interference between indistinguishable photons are important for a broad range of applicatio...
On-chip heralded single photon sources are of key importance in the development of chip-scale device...
Practical quantum photonic applications require on-demand single photon sources. As one possible sol...
Quantum information science provides new paradigms of communication, computation and measurement; su...
Quantum photonics is a promising technology for implementing quantum information tasks. We demonstra...
Operating reconfigurable quantum circuits with single photon sources is a key goal of photonic quant...
Bright sources of on-demand single photons are a fundamental resource [1], required for linear optic...
We demonstrate room temperature heralded single photon generation in a CMOS-compatible silicon nanop...
Quantum dots provide a bright source of single photons with high purity and indistinguishability, br...
Integrated quantum photonic technologies hold a great promise for application in quantum information...
The non-deterministic nature of photon sources is a key limitation for single-photon quantum process...
The field of optical quantum information processing uses and manipulates the state of light to imple...
We demonstrate the generation of heralded single photons in silica photonic chips with a preparation...
Interference between independent single photons is perhaps the most fundamental interaction in quant...
Scaling-up optical quantum technologies requires a combination of highly efficient multi-photon sour...
Quantum interference between indistinguishable photons are important for a broad range of applicatio...
On-chip heralded single photon sources are of key importance in the development of chip-scale device...
Practical quantum photonic applications require on-demand single photon sources. As one possible sol...
Quantum information science provides new paradigms of communication, computation and measurement; su...
Quantum photonics is a promising technology for implementing quantum information tasks. We demonstra...
Operating reconfigurable quantum circuits with single photon sources is a key goal of photonic quant...
Bright sources of on-demand single photons are a fundamental resource [1], required for linear optic...
We demonstrate room temperature heralded single photon generation in a CMOS-compatible silicon nanop...
Quantum dots provide a bright source of single photons with high purity and indistinguishability, br...
Integrated quantum photonic technologies hold a great promise for application in quantum information...
The non-deterministic nature of photon sources is a key limitation for single-photon quantum process...
The field of optical quantum information processing uses and manipulates the state of light to imple...