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Segmented Entanglement Establishment With All-Optical Switching in Quantum Networks

Gongming Zhao, Jingzhou Wang, Yangming Zhao, Hongli Xu, Liusheng Huang, Chunming Qiao

2023IEEE/ACM Transactions on Networking13 citationsDOI

Abstract

There are two conventional methods to establish an entanglement connection in a Quantum Data Networks (QDN). One is to create single-hop entanglement links first and then connect them with quantum swapping, and the other is forwarding one of the entangled photons from one end to the other via all-optical switching at intermediate nodes to directly establish an entanglement connection. The two methods both have pros and cons. Respectively, the former method has a higher success probability of constructing entanglement link, but it would consume more quantum resources. The latter method, however, has a lower success probability to deliver a photon across multiple quantum links with fewer quantum resources. Accordingly, we are expecting to establish significantly more entanglement connections with limited quantum resources by first creating entanglement segments, each spanning multiple quantum link, using all-optical switching, and then connecting them with quantum swapping. In this paper, we design SEE, a Segmented Entanglement Establishment approach that seamlessly integrates quantum swapping and all-optical switching to maximize quantum network throughput. SEE first creates entanglement segments over one or multiple quantum links with all-optical switching, and then connect them with quantum swapping. Accordingly, SEE can theoretically outperform conventional entanglement link-based approaches. Large scale simulations show that SEE can achieve up to 100.00% larger throughput compared with the state-of-the-art entanglement link-based approaches, e.g., Redundant Entanglement Provisioning and Selection (REPS).

Topics & Concepts

Quantum entanglementPhysicsQuantumQuantum networkQuantum sensorQuantum mechanicsQuantum Information and CryptographyQuantum Mechanics and ApplicationsQuantum optics and atomic interactions
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