Hybrid quantum photonic integrated circuits

From National Research Council Canada

DOI	Resolve DOI: https://doi.org/10.1109/PN52152.2021.9597904
Author	Search for: Yeung, Edith¹; Search for: Northeast, David B.²; Search for: Laferriere, Patrick¹; Search for: Mnaymneh, Khaled¹; Search for: Williams, Robin L.²; Search for: Poole, Philip J.¹; Search for: Dalacu, Dan¹
Affiliation	National Research Council of Canada. Advanced Electronics and Photonics National Research Council of Canada. Security and Disruptive Technologies
Format	Text, Article
Conference	2021 Photonics North (PN), May 31 - June 2, 2021, Toronto, ON, Canada
Subject	quantum dots; nanowires; waveguides; fabrication; couplings; scanning electron microscopy; photonic integrated circuits; system-on-chip
Abstract	Quantum dots embedded in photonic nanowires are a promising route for generating single photons with high efficiency. Integration of such sources on-chip offers enhanced stability and miniaturization, important in many applications involving the processing of quantum information. Here we demonstrate the efficient coupling of quantum light generated in a III-V photonic nanowire to a silicon-based photonic integrated circuit. The hybrid integration is based on a “pick & place” approach using a nanomanipulator in a scanning electron microscope. We demonstrate detected count rates of 1 Mcps and single photon purities >95%.
Publication date	2021-05-31
Publisher	IEEE
In	2021 Photonics North (PN), 9597904 (31 May 2021).
Language	English
Peer reviewed	Yes
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Record identifier	cbf1f305-3a75-4a1c-b3f2-239498618d6f
Record created	2023-01-19
Record modified	2023-01-25

Date modified:: 2025-11-09