Scalable Integration of Long-Lived Quantum Memories into a Photonic Circuit

Sara L. Mouradian; Tim Schröder; Carl B. Poitras; Luozhou Li; Jordan Goldstein; Edward H. Chen; Michael Walsh; Jaime Cardenas; Matthew L. Markham; Daniel J. Twitchen; Michal Lipson; Dirk Englund

doi:10.1103/PhysRevX.5.031009

Physical Review X (Jul 2015)

Scalable Integration of Long-Lived Quantum Memories into a Photonic Circuit

Sara L. Mouradian,
Tim Schröder,
Carl B. Poitras,
Luozhou Li,
Jordan Goldstein,
Edward H. Chen,
Michael Walsh,
Jaime Cardenas,
Matthew L. Markham,
Daniel J. Twitchen,
Michal Lipson,
Dirk Englund

Affiliations

Sara L. Mouradian
Tim Schröder
Carl B. Poitras
Luozhou Li
Jordan Goldstein
Edward H. Chen
Michael Walsh
Jaime Cardenas
Matthew L. Markham
Daniel J. Twitchen
Michal Lipson
Dirk Englund

DOI: https://doi.org/10.1103/PhysRevX.5.031009
Journal volume & issue: Vol. 5, no. 3
p. 031009

Abstract

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We demonstrate a photonic circuit with integrated long-lived quantum memories. Precharacterized quantum nodes—diamond microwaveguides containing single, stable, negatively charged nitrogen-vacancy centers—are deterministically integrated into low-loss silicon nitride waveguides. These quantum nodes efficiently couple into the single-mode waveguides with >1 Mcps collected into the waveguide, have narrow single-scan linewidths below 400 MHz, and exhibit long electron spin coherence times up to 120 μs. Our system facilitates the assembly of multiple quantum nodes with preselected properties into a photonic integrated circuit with near unity yield, paving the way towards the scalable fabrication of quantum information processors.

Published in Physical Review X

ISSN: 2160-3308 (Online)
Publisher: American Physical Society
Country of publisher: United States
LCC subjects: Science: Physics
Website: https://journals.aps.org/prx/

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