Fidelity-Aware Multipath Routing for Multipartite State Distribution in Quantum Networks

IF 4.6

IEEE Transactions on Quantum Engineering Pub Date : 2025-07-14 DOI:10.1109/TQE.2025.3588783

Evan Sutcliffe;Alejandra Beghelli

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Abstract

We consider the problem of distributing entangled multipartite states across a quantum network with improved distribution rate and fidelity. For this, we propose fidelity-aware multipath routing protocols, assess their performance in terms of the rate and fidelity of the distributed Greenberger–Horne–Zeilinger (GHZ) states, and compare such performance against that of single-path routing. Simulation results show that the proposed multipath routing protocols select routes that require more Bell states compared to single-path routing, but also require fewer rounds of Bell state generation. We also optimized the tradeoff between distribution rate and fidelity by selecting an appropriate cutoff to the quantum memory storage time. Using such a cutoff technique, the proposed multipath protocols can achieve up to an 8.3 times higher distribution rate and up to a 28% improvement in GHZ state fidelity compared to single-path routing. These results show that multipath routing both improves the distribution rates and enhances fidelity for multipartite state distribution.

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量子网络中多部状态分布的保真度感知多路径路由

我们考虑了在量子网络中分配纠缠多部态的问题，提高了分配速率和保真度。为此，我们提出了保真度感知的多路径路由协议，根据分布式greenberger - horn - zeilinger （GHZ）状态的速率和保真度评估它们的性能，并将其与单路径路由的性能进行比较。仿真结果表明，与单路径路由相比，所提出的多路径路由协议选择的路由需要更多的贝尔状态，但也需要更少的贝尔状态生成轮数。我们还通过选择适当的量子存储器存储时间截止点来优化分布率和保真度之间的权衡。使用这种截止技术，与单路径路由相比，所提出的多路径协议可以实现高达8.3倍的分发率和高达28%的GHZ状态保真度改进。结果表明，多路径路由既提高了多部状态分布的分发率，又提高了多部状态分布的保真度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE Transactions on Quantum Engineering

CiteScore

8.00

自引率

0.00%

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