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25 September 2017 On-chip hybrid quantum circuits (Conference Presentation)
Klaus D. Jöns, Ali W. Elshaari, Iman Esmaeil Zadeh, Andreas Fognini, Michael E. Reimer, Dan Dalacu, Philip J. Poole, Val Zwiller
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Proceedings Volume 10358, Quantum Photonic Devices; 103580R (2017) https://doi.org/10.1117/12.2271680
Event: SPIE Nanoscience + Engineering, 2017, San Diego, California, United States
Abstract
Quantum communication applications require a scalable approach to integrate bright sources of entangled photon-pairs in complex on-chip quantum circuits. Currently, the most promising sources are based on III/V semiconductor quantum dots. However, complex photonic circuitry is mainly achieved in silicon photonics due to the tremendous technological challenges in circuit fabrication. We take the best of both worlds by developing a new hybrid on-chip nanofabrication approach. We demonstrate for the first time on-chip generation, spectral filtering, and routing of single-photons from selected single and multiple III/V semiconductor nanowire quantum emitters all deterministically integrated in a CMOS compatible silicon nitride photonic circuit.
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Klaus D. Jöns, Ali W. Elshaari, Iman Esmaeil Zadeh, Andreas Fognini, Michael E. Reimer, Dan Dalacu, Philip J. Poole, and Val Zwiller "On-chip hybrid quantum circuits (Conference Presentation)", Proc. SPIE 10358, Quantum Photonic Devices, 103580R (25 September 2017); https://doi.org/10.1117/12.2271680
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Cited by 96 scholarly publications and 3 patents.
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KEYWORDS
Optical filters
Photonic integrated circuits
Nanofabrication
Photonic devices
Quantum circuits
Quantum dots
Resonators
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