Measurement Dependence can Affect Security in a Quantum Network

IF 2.2 4区物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY

Annalen der Physik Pub Date : 2024-09-10 DOI:10.1002/andp.202400123

Amit Kundu, Debasis Sarkar

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Abstract

Network Nonlocality is an advanced study of quantum nonlocality that comprises network structure beyond Bell's theorem. The development of quantum networks has the potential to bring a lot of technological applications in several quantum information processing tasks. Here, the focus is on how the role of the independence of the measurement choices by the end parties in a network works and can be used to affect the security in a quantum network. In both three-parties two-sources bilocal network and four-parties three-sources star network scenarios, this study is able to show, a practical way to understand the relaxation of the assumptions to enhance a real security protocol if someone wants to breach in a network communication. Theoretically, it have been proved that by relaxing the independence of the measurement choices of only one end party, a Standard Network Nonlocality (SNN) and more stronger Full Network Nonlocality (FNN) can be created and the maximum quantum violation by the classical no-signalling local model can be obtained. The distinguish between two types of network nonlocality, SNN and FNN, can also be made. It has been shown that FNN is a stronger correlation than SNN in the sense that the former comes in a scenario where all the sources must be nonlocal in nature.

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测量依赖性会影响量子网络的安全性

网络非局域性是对量子非局域性的高级研究，包括超越贝尔定理的网络结构。量子网络的发展有可能在多项量子信息处理任务中带来大量技术应用。这里的重点是网络终端各方测量选择的独立性如何发挥作用，以及如何用来影响量子网络的安全性。在三方两源双局域网络和四方三源星型网络两种情况下，本研究都能以实用的方式说明，如果有人想破坏网络通信，如何通过放宽假设来增强真实的安全协议。理论上，研究证明，通过放宽只有一个终端方测量选择的独立性，可以创建标准网络非局域性（SNN）和更强的全网络非局域性（FNN），并获得经典无信令局部模型的最大量子违规。我们还可以区分 SNN 和 FNN 两种网络非局域性。研究表明，FNN 是一种比 SNN 更强的相关性，因为前者是在所有来源都必须是非局域的情况下产生的。

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

Annalen der Physik 物理-物理：综合

CiteScore

4.50

自引率

8.30%

发文量

202

审稿时长

3 months

期刊介绍： Annalen der Physik (AdP) is one of the world''s most renowned physics journals with an over 225 years'' tradition of excellence. Based on the fame of seminal papers by Einstein, Planck and many others, the journal is now tuned towards today''s most exciting findings including the annual Nobel Lectures. AdP comprises all areas of physics, with particular emphasis on important, significant and highly relevant results. Topics range from fundamental research to forefront applications including dynamic and interdisciplinary fields. The journal covers theory, simulation and experiment, e.g., but not exclusively, in condensed matter, quantum physics, photonics, materials physics, high energy, gravitation and astrophysics. It welcomes Rapid Research Letters, Original Papers, Review and Feature Articles.