NarrowGap: Reducing Bottlenecks for End-to-End Entanglement Distribution in Quantum Networks

Quantum networks, which work by establishing entanglement between distant quantum end nodes (known as end-to-end entanglement distribution), are the promising infrastructure for quantum applications. However, the inherent loss in quantum channels and quantum decoherence contribute to the scarcity of...

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Bibliographic Details
Published in:IEEE/ACM transactions on networking 2024-10, p.1-16
Main Authors: Li, Zhonghui, Li, Jian, Xue, Kaiping, Chen, Lutong, Yu, Nenghai, Sun, Qibin, Lu, Jun
Format: Article
Language:English
Subjects:
congestion mitigation
entanglement distribution
entanglement swapping
Photonics
Purification
Quantum channels
Quantum decoherence
Quantum entanglement
Quantum networks
Quantum repeaters
Qubit
Resource management
Topology
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Summary:Quantum networks, which work by establishing entanglement between distant quantum end nodes (known as end-to-end entanglement distribution), are the promising infrastructure for quantum applications. However, the inherent loss in quantum channels and quantum decoherence contribute to the scarcity of entanglement resources in quantum networks. Consequently, there is an inevitable gap between available entanglement resources and requests' demands, significantly hindering concurrent end-to-end entanglement distributions. In this paper, we present NarrowGap, an end-to-end entanglement distribution design that can alleviate the negative impact of entanglement resource scarcity on the request service capability of quantum networks. At the heart of NarrowGap, the resource transfer scheme (RTS) is designed to transfer idle entanglement resources to boost the bottlenecks' capacities based on the unique feature of entanglement swapping, thus narrowing the gap between available entanglement resources and requests' demands for end-to-end entanglements. Besides, NarrowGap presents a resource allocation scheme (RAS) to guarantee fairness, considering both the success probability of end-to-end entanglement distribution and each request's demand, to address resource competition in bottlenecks. Extensive simulations demonstrate that NarrowGap outperforms three representative schemes and can achieve more than twice the performance improvement in request service rate.
ISSN:1063-6692
1558-2566
DOI:10.1109/TNET.2024.3476342