采用对数非线性电动力学的绝缘体/超导体转变中的全息纠缠盘熵

IF 3 3区物理与天体物理 Q2 PHYSICS, MULTIDISCIPLINARY

Annals of Physics Pub Date : 2024-07-30 DOI:10.1016/j.aop.2024.169751

Wanhe Zhang , Bo Yang , Weiping Yao

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引用次数: 0

摘要

我们探索了 AdS 孤子背景下的对数非线性电动力学全息相变。我们通过全息纠缠熵盘揭示了标量算子的相变特性。我们发现全息纠缠熵是探测临界化学势和系统相变阶次的有用工具。在超导体阶段，随着化学势的增加，标量算子的全息纠缠熵具有非单调行为，而算子的纠缠熵则单调下降。随着对数非线性因子 b 的增大，两个标量算子的全息纠缠熵都会变大。此外，全息系统中由纠缠熵探测到的绝缘体/超导体相变只受化学势的影响，与对数非线性电动力学无关。

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Holographic entanglement entropy of disk in insulator/superconductor transition with logarithmic nonlinear electrodynamics

We explore the holographic phase transition with logarithmic nonlinear electrodynamics in the backgrounds of the AdS soliton away from the probe limit. We disclose the properties of phases by the holographic entanglement entropy of disk for the scalar operators. We find that the holographic entanglement entropy is a useful tool to probe the critical chemical potential and the order of the phase transition in the system. In the superconductor phase, the holographic entanglement entropy for scalar operator $< O_{+} >$ has a non-monotonic behavior as the chemical potential increases, while the entanglement entropy for operator $< O_{-} >$ decreases monotonously. With the increase of the logarithmic nonlinear factor b, the holographic entanglement entropy becomes bigger for both scalar operators $< O_{\pm} >$ . Furthermore, the insulator/superconductor phase transition probed by the entanglement entropy in the holographic system is characterized only by the chemical potential and is independent of the logarithmic nonlinear electrodynamics.

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来源期刊

Annals of Physics 物理-物理：综合

CiteScore

5.30

自引率

3.30%

发文量

211

审稿时长

47 days

期刊介绍： Annals of Physics presents original work in all areas of basic theoretic physics research. Ideas are developed and fully explored, and thorough treatment is given to first principles and ultimate applications. Annals of Physics emphasizes clarity and intelligibility in the articles it publishes, thus making them as accessible as possible. Readers familiar with recent developments in the field are provided with sufficient detail and background to follow the arguments and understand their significance. The Editors of the journal cover all fields of theoretical physics. Articles published in the journal are typically longer than 20 pages.