周期性驱动自旋链的扩展复杂性和量子混沌

IF 2.4 3区 物理与天体物理 Q1 Mathematics Physical review. E Pub Date : 2024-09-03 DOI:10.1103/physreve.110.034201
Amin A. Nizami, Ankit W. Shrestha
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引用次数: 0

摘要

量子态在动态演化过程中的复杂性可以通过研究量子态在预定义基础上随时间的扩散来研究。众所周知,这种复杂性通过选择克雷洛夫基最小化,从而定义了扩散复杂性。我们利用阿诺德迭代程序研究了量子映射的扩散复杂性动态。我们使用的主要量子多体模型是具有不可解变形的周期性踢脚伊辛自旋链,这是一个混沌系统,我们同时研究了局部和非局部相互作用。在各种情况下,我们发现规则动力学与混沌动力学的阿诺尔迪系数和扩散复杂性具有不同的行为:在混沌情况下,阿诺尔迪系数的波动受到抑制,扩散复杂性的饱和值较大。我们将克雷洛夫量度的行为与混沌标准谱诊断的行为进行了比较。我们还研究了改变驱动频率对复杂性饱和的影响。
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Spread complexity and quantum chaos for periodically driven spin chains
The complexity of quantum states under dynamical evolution can be investigated by studying the spread with time of the state over a predefined basis. It is known that this complexity is minimized by choosing the Krylov basis, thus defining the spread complexity. We study the dynamics of spread complexity for quantum maps using the Arnoldi iterative procedure. The main illustrative quantum many-body model we use is the periodically kicked Ising spinchain with nonintegrable deformations, a chaotic system where we look at both local and nonlocal interactions. In the various cases, we find distinctive behavior of the Arnoldi coefficients and spread complexity for regular versus chaotic dynamics: suppressed fluctuations in the Arnoldi coefficients as well as larger saturation value in spread complexity in the chaotic case. We compare the behavior of the Krylov measures with that of standard spectral diagnostics of chaos. We also study the effect of changing the driving frequency on the complexity saturation.
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来源期刊
Physical review. E
Physical review. E 物理-物理:流体与等离子体
CiteScore
4.60
自引率
16.70%
发文量
0
审稿时长
3.3 months
期刊介绍: Physical Review E (PRE), broad and interdisciplinary in scope, focuses on collective phenomena of many-body systems, with statistical physics and nonlinear dynamics as the central themes of the journal. Physical Review E publishes recent developments in biological and soft matter physics including granular materials, colloids, complex fluids, liquid crystals, and polymers. The journal covers fluid dynamics and plasma physics and includes sections on computational and interdisciplinary physics, for example, complex networks.
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