Designing tomorrow's quantum internet

IF 4.2 Q2 QUANTUM SCIENCE & TECHNOLOGY
W. Munro, N. L. Piparo, Josephine Dias, M. Hanks, K. Nemoto
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引用次数: 5

Abstract

Principles of quantum mechanics promise a future quantum internet that connects a wide variety of quantum devices together in a coherent and secure fashion. It is well known that due to the size of this quantum internet, quantum repeaters will be a critical part in a similar fashion to the importance of repeaters in today's telecommunications internet. Given the inherent differences between classical and quantum physics, it is essential to establish how a quantum internet will function including how we route information as well as the functionality quantum repeaters will need to provide. Our considerations here go far beyond quantum key distribution and instead focus on a true network of connected quantum devices, including computers and sensors. We show how the efficient operation of such quantum networks relies on the seamless integration of both quantum and classical communication resources.
设计未来的量子互联网
量子力学原理预示着未来的量子互联网将以连贯和安全的方式将各种量子设备连接在一起。众所周知,由于这种量子互联网的规模,量子中继器将以类似于中继器在当今电信互联网中的重要性的方式成为关键部分。鉴于经典物理学和量子物理学之间的固有差异,确定量子互联网的功能至关重要,包括我们如何路由信息以及量子中继器需要提供的功能。我们在这里的考虑远远超出了量子密钥分发,而是专注于连接的量子设备的真正网络,包括计算机和传感器。我们展示了这种量子网络的高效运行如何依赖于量子和经典通信资源的无缝集成。
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
CiteScore
9.90
自引率
0.00%
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