Scalable Photonic Integration of Long-Lived Tin-Vacancy Memories at 1.3 K

Ian Christen; Hamza Raniwala; Marco Colangelo; Kevin Chen; Lorenzo De Santis Linsen Li; Yixuan Song; Carlos Errando-Herranz; Isaac Harris; Eric Bersin Madison Sutula; Karl Berggren; Matt Trusheim; Dirk Englund; P. Ben Dixon; Xingyu Zhang; Katia Shtyrkova Dave Kharas; Ryan Murphy; Scott Hamilton

doi:10.1364/QUANTUM.2022.QM2A.4

Quantum 2.0 Conference and Exhibition
Technical Digest Series (Optica Publishing Group, 2022),
paper QM2A.4
•https://doi.org/10.1364/QUANTUM.2022.QM2A.4

Scalable Photonic Integration of Long-Lived Tin-Vacancy Memories at 1.3 K

Ian Christen, Hamza Raniwala, Marco Colangelo, Kevin Chen, Lorenzo De Santis Linsen Li, Yixuan Song, Carlos Errando-Herranz, Isaac Harris, Eric Bersin Madison Sutula, Karl Berggren, Matt Trusheim, Dirk Englund, P. Ben Dixon, Xingyu Zhang, Katia Shtyrkova Dave Kharas, Ryan Murphy, and Scott Hamilton

Quantum 2.0 2022

Boston, MA United States
13–16 June 2022
ISBN: 978-1-957171-11-1

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Hybrid Systems (QM2A)

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I. Christen, H. Raniwala, M. Colangelo, K. Chen, L. De Santis Linsen Li, Y. Song, C. Errando-Herranz, I. Harris, E. B. M. Sutula, K. Berggren, M. Trusheim, D. Englund, P. Ben Dixon, X. Zhang, K. S. D. Kharas, R. Murphy, and S. Hamilton, "Scalable Photonic Integration of Long-Lived Tin-Vacancy Memories at 1.3 K," in Quantum 2.0 Conference and Exhibition, Technical Digest Series (Optica Publishing Group, 2022), paper QM2A.4.

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Abstract

We demonstrate a scalable integrated photonics platform operating at 1.3 K as an efficient microwave and optical interface for quantum memories based on tin-vacancy color centers in diamond.

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