2020
DOI: 10.1109/jqe.2019.2952387
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On-Chip Integrated Single Photon Source-Optically Resonant Metastructure Based Scalable Quantum Optical Circuits

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Cited by 2 publications
(10 citation statements)
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“…These InGaAs MTSQDs were centered around 930nm and have a spectral uniformity (σλ) of 8nm -a factor of 5 improvement compared to the typically explored lattice-mismatch driven selfassembled quantum dots (SAQDs). More importantly, we showed that there are pairs of asgrown MTSQDs emitting within ~300 μeV of each other 13,16 . Such closely emitting pairs of QDs can be driven into resonance for the study of on-chip photon interference using well established electrical tuning 20,21 .…”
Section: Spectrally Ultra-uniform and Ultra-pure Single Photon Source...mentioning
confidence: 77%
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“…These InGaAs MTSQDs were centered around 930nm and have a spectral uniformity (σλ) of 8nm -a factor of 5 improvement compared to the typically explored lattice-mismatch driven selfassembled quantum dots (SAQDs). More importantly, we showed that there are pairs of asgrown MTSQDs emitting within ~300 μeV of each other 13,16 . Such closely emitting pairs of QDs can be driven into resonance for the study of on-chip photon interference using well established electrical tuning 20,21 .…”
Section: Spectrally Ultra-uniform and Ultra-pure Single Photon Source...mentioning
confidence: 77%
“…Previously we have analyzed the potential of collective Mie-like resonances in all dielectric metastructures made of subwavelength-sized DBB arrays and demonstrated that a single collective spectral mode does provide--in different spatial regions of the DBB metastrucutre--the needed functions including enhancing the SPS emission rate, directing the mission, guiding the photons, beam splitting, and beam combining 12,15,16 . This eases the difficulty of mode-matching between different regions ("functional components") of the optical network.…”
Section: Buried Sps Arrays: a Platform For Quantum Optical Circuitsmentioning
confidence: 99%
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