Scalable Integration of Solid State Quantum Memories into a Photonic Network
Author(s)Mouradian, Sara L.; Schroder, Tim; Poitras, Carl B.; Li, Luozhou; Zheng, Jiabao; Bayn, Igal; Mower, Jacob; Berggren, Karl K.; Lipson, Michal; Najafi, Faraz; Goldstein, Jordan A.; Chen, Edward H.; Harris, Nicholas Christopher; Dane, Andrew Edward; Englund, Dirk Robert; ... Show more Show less
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Single nitrogen vacancy centers in nanostructured diamond form high quality nodes integrated into low-loss photonic circuitry, enabling on-chip detection and signal manipulation. Pre-selection provides near-unity yield. Long coherence times are demonstrated in integrated nodes.
DepartmentMassachusetts Institute of Technology. Department of Electrical Engineering and Computer Science; Massachusetts Institute of Technology. Research Laboratory of Electronics
Optical Society of America
Mouradian, Sara L., Tim Schroder, Carl B. Poitras, Luozhou Li, Jordan Goldstein, Edward Chen, Jiabao Zheng, et al. “Scalable Integration of Solid State Quantum Memories into a Photonic Network.” CLEO: 2015 (2015).
Author's final manuscript