Quantum Information Scrambling in Adiabatically Driven Critical Systems.

IF 2.1 3区 物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY Entropy Pub Date : 2024-11-05 DOI:10.3390/e26110951
Ricardo Puebla, Fernando J Gómez-Ruiz
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Abstract

Quantum information scrambling refers to the spread of the initially stored information over many degrees of freedom of a quantum many-body system. Information scrambling is intimately linked to the thermalization of isolated quantum many-body systems, and has been typically studied in a sudden quench scenario. Here, we extend the notion of quantum information scrambling to critical quantum many-body systems undergoing an adiabatic evolution. In particular, we analyze how the symmetry-breaking information of an initial state is scrambled in adiabatically driven integrable systems, such as the Lipkin-Meshkov-Glick and quantum Rabi models. Following a time-dependent protocol that drives the system from symmetry-breaking to a normal phase, we show how the initial information is scrambled, even for perfect adiabatic evolutions, as indicated by the expectation value of a suitable observable. We detail the underlying mechanism for quantum information scrambling, its relation to ground- and excited-state quantum phase transitions, and quantify the degree of scrambling in terms of the number of eigenstates that participate in the encoding of the initial symmetry-breaking information. While the energy of the final state remains unaltered in an adiabatic protocol, the relative phases among eigenstates are scrambled, and so is the symmetry-breaking information. We show that a potential information retrieval, following a time-reversed protocol, is hindered by small perturbations, as indicated by a vanishingly small Loschmidt echo and out-of-time-ordered correlators. The reported phenomenon is amenable for its experimental verification, and may help in the understanding of information scrambling in critical quantum many-body systems.

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绝热驱动临界系统中的量子信息扰乱。
量子信息扰乱是指初始存储的信息在量子多体系统的多个自由度上扩散。信息扰乱与孤立量子多体系统的热化密切相关,通常在突然淬火的情况下进行研究。在这里,我们将量子信息扰乱的概念扩展到正在经历绝热演化的临界量子多体系统。特别是,我们分析了在绝热驱动的可积分系统(如利普金-梅什科夫-格里克和量子拉比模型)中,初始状态的对称性破坏信息是如何被扰乱的。根据一个驱动系统从对称性破缺阶段进入正常阶段的时间相关协议,我们展示了初始信息是如何被扰乱的,即使是完美的绝热演化,也是如此。我们详细介绍了量子信息扰乱的基本机制、它与基态和激发态量子相变的关系,并用参与初始对称性破缺信息编码的特征状态的数量来量化扰乱的程度。在绝热协议中,虽然最终态的能量保持不变,但特征态之间的相对相位被扰乱,对称性破缺信息也是如此。我们的研究表明,按照时间逆转协议进行的潜在信息检索会受到微小扰动的阻碍,这表现在洛施米特回波和超时序相关器的影响非常小。所报告的现象可用于实验验证,并可能有助于理解临界量子多体系统中的信息扰乱。
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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来源期刊
Entropy
Entropy PHYSICS, MULTIDISCIPLINARY-
CiteScore
4.90
自引率
11.10%
发文量
1580
审稿时长
21.05 days
期刊介绍: Entropy (ISSN 1099-4300), an international and interdisciplinary journal of entropy and information studies, publishes reviews, regular research papers and short notes. Our aim is to encourage scientists to publish as much as possible their theoretical and experimental details. There is no restriction on the length of the papers. If there are computation and the experiment, the details must be provided so that the results can be reproduced.
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