Multifractal critical phase driven by coupling quasiperiodic systems to electromagnetic cavities

arXiv - PHYS - Disordered Systems and Neural Networks Pub Date : 2024-08-12 DOI:arxiv-2408.06496

Thales F. Macedo, Julián Faúndez, Raimundo R. dos Santos, Natanael C. Costa, Felipe A. Pinheiro

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Abstract

We theoretically investigate the effects of criticality and multifractal states in a one-dimensional Aubry-Andre-Harper model coupled to electromagnetic cavities. We focus on two specific cases where the phonon frequencies are $\omega_{0}=1$ and $\omega_{0}=2$, respectively. Phase transitions are analyzed using both the average and minimum inverse participation ratio to identify metallic, fractal, and insulating states. We provide numerical evidence to show that the presence of the optical cavity induces a critical, intermediate phase in between the extended and localized phases, hence drastically modifying the traditional transport phase diagram of the Aubry-Andre-Harper model, in which critical states can only exist at the well-defined metal-insulator critical point. We also investigate the probability distribution of the inverse participation ratio and conduct a multifractal analysis to characterize the nature of the critical phase, in which we show that extended, localized, and fractal eigenstates coexist. Altogether our findings reveal the pivotal role that the coupling to electromagnetic cavities plays in tailoring critical transport phenomena at the microscopic level of the eigenstates.

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准周期系统与电磁腔耦合驱动的多分形临界相位

我们从理论上研究了与电磁腔耦合的一维奥布里-安德烈-哈珀模型中临界状态和多分形状态的影响。我们重点研究了声子频率分别为 $\omega_{0}=1$ 和 $\omega_{0}=2$ 的两种具体情况。我们利用平均参与比和最小反参与比分析了相变，以确定金属态、分形态和绝缘态。我们提供的数值证据表明，光腔的存在诱发了介于扩展相和局部相之间的临界中间相，从而极大地改变了奥布里-安德烈-哈珀模型的传统输运相图，在该模型中，临界状态只能存在于定义明确的金属-绝缘体临界点。我们还研究了反参与比的概率分布，并进行了多分形分析以描述临界相的性质，结果表明扩展、局部和分形特征态是共存的。总之，我们的研究结果揭示了与电磁空腔的耦合在微观层面上对特征状态的临界传输现象起着关键作用。

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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arXiv - PHYS - Disordered Systems and Neural Networks

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