Towards Scalable Quantum Networks

arXiv - CS - Networking and Internet Architecture Pub Date : 2024-09-12 DOI:arxiv-2409.08416

Connor Howe, Mohsin Aziz, Ali Anwar

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Abstract

This paper presents a comprehensive study on the scalability challenges and opportunities in quantum communication networks, with the goal of determining parameters that impact networks most as well as the trends that appear when scaling networks. We design simulations of quantum networks comprised of router nodes made up of trapped-ion qubits, separated by quantum repeaters in the form of Bell State Measurement (BSM) nodes. Such networks hold the promise of securely sharing quantum information and enabling high-power distributed quantum computing. Despite the promises, quantum networks encounter scalability issues due to noise and operational errors. Through a modular approach, our research aims to surmount these challenges, focusing on effects from scaling node counts and separation distances while monitoring low-quality communication arising from decoherence effects. We aim to pinpoint the critical features within networks essential for advancing scalable, large-scale quantum computing systems. Our findings underscore the impact of several network parameters on scalability, highlighting a critical insight into the trade-offs between the number of repeaters and the quality of entanglement generated. This paper lays the groundwork for future explorations into optimized quantum network designs and protocols.

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迈向可扩展量子网络

本文对量子通信网络的可扩展性挑战和机遇进行了全面研究，旨在确定对网络影响最大的参数以及网络扩展时出现的趋势。我们设计了量子网络的模拟，该网络由困离子量子比特构成的路由节点组成，并由贝尔状态测量（BSM）节点形式的量子中继器隔开。这种网络有望安全地共享量子信息，并实现高功率分布式量子计算。尽管前景广阔，但量子网络仍会因噪声和操作错误而遇到可扩展性问题。通过模块化方法，我们的研究旨在克服这些挑战，重点关注节点数量和分离距离的扩展效应，同时监测退相干效应导致的低质量通信。我们的目标是找出网络中对推进可扩展的大规模量子计算系统至关重要的关键特征。我们的发现强调了几个网络参数对可扩展性的影响，突出了对中继器数量与所产生纠缠质量之间权衡的重要见解。本文为未来探索优化量子网络设计和协议奠定了基础。

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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arXiv - CS - Networking and Internet Architecture

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