空间定位操作和经典通信的不可分辨增强纠缠恢复

IF 1.3 4区物理与天体物理 Q3 PHYSICS, MATHEMATICAL

Open Systems & Information Dynamics Pub Date : 2021-12-01 DOI:10.1142/S1230161221500207

Matteo Piccolini, Farzam Nosrati, R. Morandotti, R. Franco

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引用次数: 3

摘要

我们扩展了一个程序，利用相同粒子的空间不可区分性来恢复与马尔可夫噪声环境相互作用的两个量子比特之间的被破坏的纠缠。本文采用空间定位操作和经典通信(sLOCC)操作框架，从不可区分成分中激活纠缠恢复。我们考虑噪声在整个过程中起作用的现实情况。考虑了三种标准类型的噪声:相位阻尼、去极化和幅度阻尼信道。在这种一般情况下，我们发现纠缠恢复的数量与空间不可区分的程度成正比。这些结果将sLOCC提升为在空间不可区分子系统的量子网络中访问和利用量子态保护的实用框架。

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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Indistinguishability-Enhanced Entanglement Recovery by Spatially Localized Operations and Classical Communication

We extend a procedure exploiting spatial indistinguishability of identical particles to recover the spoiled entanglement between two qubits interacting with Markovian noisy environments. Here, the spatially localized operations and classical communication (sLOCC) operational framework is used to activate the entanglement restoration from the indistinguishable constituents. We consider the realistic scenario where noise acts for the whole duration of the process. Three standard types of noises are considered: a phase damping, a depolarizing, and an amplitude damping channel. Within this general scenario, we find the entanglement to be restored in an amount proportional to the degree of spatial indistinguishability. These results elevate sLOCC to a practical framework for accessing and utilizing quantum state protection within a quantum network of spatially indistinguishable subsystems.

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来源期刊

Open Systems & Information Dynamics 工程技术-计算机：信息系统

CiteScore

1.40

自引率

12.50%

发文量

审稿时长

>12 weeks

期刊介绍： The aim of the Journal is to promote interdisciplinary research in mathematics, physics, engineering and life sciences centered around the issues of broadly understood information processing, storage and transmission, in both quantum and classical settings. Our special interest lies in the information-theoretic approach to phenomena dealing with dynamics and thermodynamics, control, communication, filtering, memory and cooperative behaviour, etc., in open complex systems.