A Note on the Efficient Operation of Quantum Radar and the Fair Classical Comparison

IEEE Transactions on Radar Systems Pub Date : 2025-06-12 DOI:10.1109/TRS.2025.3579042

Florian Bischeltsrieder;Michael Würth;Markus Peichl;Wolfgang Utschick

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Abstract

At the current state of the scientific discourse on quantum radar, the best understood and experimentally feasible types of implementation are based on two-mode-squeezed-vacuum (TMSV) photon states and aimed at the task of target detection. The operating environment, in which an advantage over classical radar may be attainable, is therefore limited to the extreme regimes of very low signal-to-noise ratios (SNRs) and high thermal noise levels as well as confining the required hardware at mK temperatures. In this work, we approach the open question of how to optimally operate a potential quantum radar system. To this end, we define the optimal operation using the detection advantage against classical radar as well as the efficient usage of the resource measurement time. We show that there is a tradeoff between time efficiency and outperformance of classical radar and specify the conditions for such an operation. Building on this aspect, we investigate the concept of the fair classical comparison to facilitate the understanding of its relation to quantum radar.

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量子雷达的高效运行与公平的经典比较

在目前关于量子雷达的科学论述中，最容易理解和实验上可行的实现类型是基于双模压缩真空（TMSV）光子态并以目标探测任务为目标。因此，与传统雷达相比，其工作环境可能具有优势，但仅限于极低信噪比（SNRs）和高热噪声水平的极端情况，以及将所需硬件限制在mK温度下。在这项工作中，我们探讨了如何优化操作潜在量子雷达系统的开放问题。为此，我们定义了利用传统雷达的探测优势以及有效利用资源测量时间的最佳操作。我们证明了经典雷达的时间效率和性能之间存在权衡，并指定了这种操作的条件。在此基础上，我们研究了公平经典比较的概念，以促进对其与量子雷达关系的理解。

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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IEEE Transactions on Radar Systems

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