Three Dimensional Exploration of the Dynamics of Bell Diagonal States

IF 1.3 4区 物理与天体物理 Q3 PHYSICS, MULTIDISCIPLINARY International Journal of Theoretical Physics Pub Date : 2024-08-27 DOI:10.1007/s10773-024-05731-7
Varsha Sambhaje, Anju Chaurasia
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Abstract

Within the framework of quantum information theory, the performance of conventional 2-D techniques is often unsatisfactory for the study of Bell states that hold a unique status as maximally entangled states. Therefore, 3-D approaches are increasingly employed to achieve more accurate and detailed analysis, offering improved performance and insights in complex scenarios. Among the diverse background of mixed two-qubit states, certain configurations exhibit unique quantum correlations that harness advanced quantum information processing tasks such as Bell diagonal states. Although, these states may appear superficially simple and exhibit a rich spectrum of correlations. The present research employs a methodology that involves a convex combination of distinct Bell states to generate the entire class of Bell diagonal states. This work explores the time evolution of Bell diagonal states, when exposed to various quantum channels and investigates the dynamics of quantum correlations such as entanglement, discord, and state of separability. Finally, the behaviour of Bell diagonal states is analysed and results are compared between theory and practice. A threedimensional visual approach is used to illustrate a deeper understanding of various quantum features and dynamic behaviour of the Bell diagonal states.

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贝尔对角线状态动力学的三维探索
在量子信息论的框架内,传统二维技术的性能往往无法满足对贝尔态的研究,因为贝尔态具有最大纠缠态的独特地位。因此,人们越来越多地采用三维方法来实现更精确、更详细的分析,从而在复杂情况下提高性能和洞察力。在混合双量子比特态的各种背景中,某些配置表现出独特的量子相关性,可以利用贝尔对角态等先进的量子信息处理任务。虽然这些态表面上看似简单,但却表现出丰富的相关性。目前的研究采用了一种方法,将不同的贝尔态进行凸组合,生成整个贝尔对角态类别。这项工作探索了贝尔对角线态暴露于各种量子通道时的时间演化,并研究了量子相关性的动态,如纠缠、不和谐和可分离状态。最后,对贝尔对角态的行为进行了分析,并对理论和实践结果进行了比较。该书采用三维可视化方法来说明对贝尔对角线态的各种量子特征和动态行为的深入理解。
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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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