Nanoelectromechanical control of spin-photon interfaces in a hybrid quantum system on chip

Genevieve Clark; Genevieve Clark; Hamza Raniwala; Matthew Koppa; Kevin Chen; Andrew Leenheer; Matthew Zimmerman; Mark Dong; Mark Dong; Linsen Li; Y. Henry Wen; Daniel Dominguez; Matthew Trusheim; Matthew Trusheim; Gerald Gilbert; Matt Eichenfield; Matt Eichenfield; Dirk R. Englund

doi:10.1364/FIO.2023.FM6B.3

Frontiers in Optics + Laser Science 2023 (FiO, LS)
Technical Digest Series (Optica Publishing Group, 2023),
paper FM6B.3
•https://doi.org/10.1364/FIO.2023.FM6B.3

Nanoelectromechanical control of spin-photon interfaces in a hybrid quantum system on chip

Genevieve Clark, Hamza Raniwala, Matthew Koppa, Kevin Chen, Andrew Leenheer, Matthew Zimmerman, Mark Dong, Linsen Li, Y. Henry Wen, Daniel Dominguez, Matthew Trusheim, Gerald Gilbert, Matt Eichenfield, and Dirk R. Englund

Frontiers in Optics 2023

Tacoma, Washington United States
9–12 October 2023
ISBN: 978-1-957171-29-6

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Novel Qubits and Emitters; Quantum Communications (FM6B)

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G. Clark, H. Raniwala, M. Koppa, K. Chen, A. Leenheer, M. Zimmerman, M. Dong, L. Li, Y. H. Wen, D. Dominguez, M. Trusheim, G. Gilbert, M. Eichenfield, and D. R. Englund, "Nanoelectromechanical control of spin-photon interfaces in a hybrid quantum system on chip," in Frontiers in Optics + Laser Science 2023 (FiO, LS), Technical Digest Series (Optica Publishing Group, 2023), paper FM6B.3.

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Abstract

We demonstrate nanomechanical strain control of tin vacancies in diamond nanostructures in a hybrid system-on-chip architecture based on piezo-actuated photonics. We show frequency tuning and acoustic control over 20 GHz and 2 GHz respectively, as well as on-chip active routing of color center single photon emission.

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