Mesoscopic and macroscopic quantum correlations in photonic, atomic and optomechanical systems

IF 7.4 1区 物理与天体物理 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Run Yan Teh , Laura Rosales-Zarate , Peter D. Drummond , M.D. Reid
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引用次数: 2

Abstract

This paper reviews the progress that has been made in our knowledge of quantum correlations at the mesoscopic and macroscopic level. We begin by summarizing the Einstein-Podolsky-Rosen (EPR) argument and the Bell correlations that cannot be explained by local hidden variable theories. It was originally an open question as to whether (and how) such quantum correlations could occur on a macroscopic scale, since this would seem to contradict the correspondence principle. The purpose of this review is to examine how this question has been answered over the decades since the original papers of EPR and Bell. We first review work relating to higher spin measurements which revealed that macroscopic quantum states could exhibit Bell correlations. This covers higher dimensional, multiparticle and continuous-variable EPR and Bell states where measurements on a single system give a spectrum of outcomes, and also multipartite states where measurements are made at multiple separated sites. It appeared that the macroscopic quantum observations were for an increasingly limited span of measurement settings and required a fine resolution of outcomes. Motivated by this, we next review correlations for macroscopic superposition states, and examine predictions for the violation of Leggett-Garg inequalities using dynamical quantum systems. These results reveal Bell correlations for coarse-grained measurements which need only distinguish between macroscopically distinct states, thus bringing into question the validity of certain forms of macroscopic realism. Finally, we review progress for massive systems, including Bose-Einstein condensates and optomechanical oscillators, where EPR-type correlations have been observed between massive systems. Experiments are summarized which support the predictions of quantum mechanics in mesoscopic regimes.

光子、原子和光力学系统中的介观和宏观量子关联
本文综述了我们在介观和宏观水平上对量子相关的认识所取得的进展。我们首先总结爱因斯坦-波多尔斯基-罗森(EPR)论证和贝尔相关性,这些不能用局部隐变量理论来解释。最初,这种量子关联是否(以及如何)在宏观尺度上发生是一个悬而未决的问题,因为这似乎与对应原理相矛盾。这篇综述的目的是研究自EPR和Bell的原始论文发表以来的几十年里,这个问题是如何得到回答的。我们首先回顾了与高自旋测量有关的工作,这些工作揭示了宏观量子态可能表现出贝尔相关。这涵盖了高维、多粒子和连续变量的EPR和贝尔态,其中在单个系统上的测量给出了一系列结果,以及在多个分离位点进行测量的多部态。看来,宏观量子观测的测量设置范围越来越有限,需要对结果有很好的分辨率。受此启发,我们接下来回顾宏观叠加态的相关性,并使用动态量子系统检查对违反莱格特-加格不等式的预测。这些结果揭示了粗粒度测量的贝尔相关性,这些测量只需要区分宏观上不同的状态,从而使某些形式的宏观现实主义的有效性受到质疑。最后,我们回顾了大质量系统的研究进展,包括玻色-爱因斯坦凝聚和光力学振子,在这些大质量系统之间已经观察到epr型相关。总结了在介观体系中支持量子力学预测的实验。
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来源期刊
Progress in Quantum Electronics
Progress in Quantum Electronics 工程技术-工程:电子与电气
CiteScore
18.50
自引率
0.00%
发文量
23
审稿时长
150 days
期刊介绍: Progress in Quantum Electronics, established in 1969, is an esteemed international review journal dedicated to sharing cutting-edge topics in quantum electronics and its applications. The journal disseminates papers covering theoretical and experimental aspects of contemporary research, including advances in physics, technology, and engineering relevant to quantum electronics. It also encourages interdisciplinary research, welcoming papers that contribute new knowledge in areas such as bio and nano-related work.
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