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.
Scalable Deterministic Integration of Two Quantum Dots into an On-Chip Quantum Circuit , volume =
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Site-controlled InAs/InP quantum dots on nanopyramids achieve FSS below 9.2 μeV resolution limit with single-photon emission in S, C, and L telecom bands.
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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.
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Telecom-band site-controlled quantum dots with engineered low fine-structure splitting
Site-controlled InAs/InP quantum dots on nanopyramids achieve FSS below 9.2 μeV resolution limit with single-photon emission in S, C, and L telecom bands.