控制非马尔可夫系统中的定向量子相干性

IF 1.3 4区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY
Hu Ju-Ju, Ji Ying-Hua
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引用次数: 0

摘要

量子相干和量子转向是量子信息技术中极为有用的资源。基于量子相干和量子转向之间的相关性,形成了转向量子相干(SQC),这是一种新的量子相关测量方法。本文应用 SQC 探索了非马尔可夫系统中量子相关性的动态演化,并将其与典型的量子纠缠(QE)进行了比较。结果表明,与 QE 一样,SQC 也能测量量子系统的量子相关性。进一步的研究表明,两种测量方法存在明显的差异:一方面,在非马尔可夫动力学演化过程中,QE 会出现死亡和重生,而 SQC 则不会,这表明 SQC 比 QE 更稳健;另一方面,通道的叠加效应不利于维持系统的 QE,但却有利于维持 SQC。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Controlling of Steered Quantum Coherence in Non-Markovian System

Controlling of Steered Quantum Coherence in Non-Markovian System

Quantum coherence and quantum steering are extremely useful resources for quantum information technology. Based on the correlation between quantum coherence and quantum steering, the steered quantum coherence (SQC) is formed, which is a new quantum correlation measurement method. In this paper, the SQC is applied to explore the dynamic evolution of quantum correlation in non-Markovian systems and it is also compared with typical quantum entanglement (QE). The results show that same as the QE, the SQC can also measure the quantum correlation of quantum system. Further research shows that there are obvious differences between the two measurement methods: on the one hand, in the process of non-Markovian dynamics evolution, death and rebirth occur for QE, but not for SQC, which indicates that SQC is more robust than QE; on the other hand, the superposition effect of the channel is not conducive to maintaining the QE of the system, but it is beneficial to maintaining the SQC.

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来源期刊
CiteScore
2.50
自引率
21.40%
发文量
258
审稿时长
3.3 months
期刊介绍: International Journal of Theoretical Physics publishes original research and reviews in theoretical physics and neighboring fields. Dedicated to the unification of the latest physics research, this journal seeks to map the direction of future research by original work in traditional physics like general relativity, quantum theory with relativistic quantum field theory,as used in particle physics, and by fresh inquiry into quantum measurement theory, and other similarly fundamental areas, e.g. quantum geometry and quantum logic, etc.
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