真正的多方纠缠在时间里

Simon Milz, C. Spee, Zhen-Peng xu, F. A. Pollock, K. Modi, O. Guhne
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引用次数: 18

摘要

虽然空间量子相关性已经得到了非常详细的研究,但人们对时间过程所表现出的真正量子相关性知之甚少。利用量子梳形式,时间过程可以映射到量子态,关键的区别是时间相关性必须满足因果顺序,而它们的空间对应物则不以同样的方式受到约束。在这里,我们利用这种等效性,并使用多部纠缠理论的工具来提供(因果有序)时间量子过程可以显示的相关性结构的全面图像。首先,关注在两个时间点探测的过程的情况——可以等效地用三方量子态来描述——我们提供了在不同分裂中存在二部纠缠的必要和充分条件。接下来,我们将这些场景与先前研究的量子记忆、纠缠打破超级通道和量子转向的概念联系起来,从而为时间量子过程中的纠缠提供物理解释,并确定其创建所需的资源。此外,我们构造了w型和ghz型真正多部纠缠双时间过程的明确例子,并证明了时间过程中的真正多部纠缠可以是一种涌现现象。最后,我们证明了在任何探测次数下,都存在跨多次的真正纠缠进程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Genuine multipartite entanglement in time
While spatial quantum correlations have been studied in great detail, much less is known about the genuine quantum correlations that can be exhibited by temporal processes. Employing the quantum comb formalism, processes in time can be mapped onto quantum states, with the crucial difference that temporal correlations have to satisfy causal ordering, while their spatial counterpart is not constrained in the same way. Here, we exploit this equivalence and use the tools of multipartite entanglement theory to provide a comprehensive picture of the structure of correlations that (causally ordered) temporal quantum processes can display. First, focusing on the case of a process that is probed at two points in time -- which can equivalently be described by a tripartite quantum state -- we provide necessary as well as sufficient conditions for the presence of bipartite entanglement in different splittings. Next, we connect these scenarios to the previously studied concepts of quantum memory, entanglement breaking superchannels, and quantum steering, thus providing both a physical interpretation for entanglement in temporal quantum processes, and a determination of the resources required for its creation. Additionally, we construct explicit examples of W-type and GHZ-type genuinely multipartite entangled two-time processes and prove that genuine multipartite entanglement in temporal processes can be an emergent phenomenon. Finally, we show that genuinely entangled processes across multiple times exist for any number of probing times.
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