Monolithically integrated InGaAs/GaAs quantum dot on silicon produces energy-time entangled photons under two-photon excitation, with two-photon interference visibilities up to 64% in short time windows.
Deterministic and highly indistinguishable single photons in the telecom C-band
3 Pith papers cite this work. Polarity classification is still indexing.
citation-role summary
citation-polarity summary
years
2026 3verdicts
UNVERDICTED 3roles
baseline 1polarities
baseline 1representative citing papers
Hybrid semiconductor-dielectric microresonator with quantum dot delivers 11% end-to-end efficiency for polarized telecom C-band single photons.
A review summarizing potential uses of quantum optics techniques in retinal imaging, low-light methods, nanoscale probes, and single-photon visual studies.
citing papers explorer
-
Energy-time entanglement from a monolithically integrated quantum dot on silicon
Monolithically integrated InGaAs/GaAs quantum dot on silicon produces energy-time entangled photons under two-photon excitation, with two-photon interference visibilities up to 64% in short time windows.
-
Telecom C-band single-photon sources with a semiconductor-dielectric microresonator
Hybrid semiconductor-dielectric microresonator with quantum dot delivers 11% end-to-end efficiency for polarized telecom C-band single photons.
-
Introduction to Quantum Ophthalmology
A review summarizing potential uses of quantum optics techniques in retinal imaging, low-light methods, nanoscale probes, and single-photon visual studies.