The realistic implementation of quantum architectures relies on the development of scalable, resource-efficient platforms that are compatible with CMOS technologies as well as fiber networks. This work demonstrates novel schemes utilized for time-/frequency-bin entanglement generation and processing by leveraging existing telecommunications and integrated photonics infrastructures.
Montaut, N., Roztocki, P., Chemnitz, M., Sciara, S., MacLellan, B., Fischer, B., et al. (2022). Telecom-compatible, affordable and scalable quantum technologies. In 2022 IEEE Photonics Conference (IPC) Proceedings (pp. 1-2) [10.1109/IPC53466.2022.9975549].
Telecom-compatible, affordable and scalable quantum technologies
Sciara, Stefania;Morandotti, Roberto
;Cino, Alfonso
2022-12-14
Abstract
The realistic implementation of quantum architectures relies on the development of scalable, resource-efficient platforms that are compatible with CMOS technologies as well as fiber networks. This work demonstrates novel schemes utilized for time-/frequency-bin entanglement generation and processing by leveraging existing telecommunications and integrated photonics infrastructures.
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