Mitigating Scattering in a Quantum System Using Only an Integrating Sphere

PRX Quantum Pub Date : 2024-09-13 DOI:10.1103/prxquantum.5.030351

Zhenfei Jiang, Tian Li, Matthew L. Boone, Zhenhuan Yi, Alexei V. Sokolov, Girish S. Agarwal, Marlan O. Scully

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Abstract

Strong quantum correlated sources are essential but delicate resources for quantum information science and engineering protocols. Decoherence and loss are the two main disruptive processes that lead to the loss of nonclassical behavior in quantum correlations. In quantum systems, scattering can contribute to both decoherence and loss. In this work, we present an experimental scheme capable of significantly mitigating the adverse impact of scattering in quantum systems. Our quantum system is composed of a two-mode squeezed light generated with the four-wave-mixing process in hot rubidium vapor and a scatterer is introduced to one of the two modes. An integrating sphere is then placed after the scatterer to recollect the scattered photons. We use mutual information between the two modes as the measure of quantum correlations and demonstrate a 47.5% mutual information recovery from scattering, despite an enormous photon loss of greater than 85%. Our scheme is the very first step toward recovering quantum correlations from disruptive random processes and thus has the potential to bridge the gap between proof-of-principle demonstrations and practical real-world implementations of quantum protocols.

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仅使用积分球减轻量子系统中的散射

强量子相关源是量子信息科学和工程协议中必不可少的微妙资源。退相干和损耗是导致量子相关性丧失非经典行为的两个主要破坏过程。在量子系统中，散射会导致退相干和损耗。在这项工作中，我们提出了一种实验方案，能够显著减轻量子系统中散射的不利影响。我们的量子系统由在热铷蒸汽中通过四波混合过程产生的双模挤压光组成，并在两个模式之一引入散射体。然后在散射体后放置一个积分球来收集散射光子。我们使用两个模式之间的互信息作为量子相关性的度量，并证明尽管光子损失超过 85%，但从散射中恢复的互信息达到 47.5%。我们的方案是从破坏性随机过程中恢复量子相关性的第一步，因此有可能弥合量子协议的原理验证和实际应用之间的差距。

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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