Subharmonic oscillations in the Floquet circuit with the frequency-synthesis dimension

arXiv - PHYS - Other Condensed Matter Pub Date : 2024-06-26 DOI:arxiv-2406.18769

Bo Lv, Shiyun Xia, Ye Tian, Ting Liu, Hongyang Mu, Zhichao Shen, Sijie Wang, Zheng Zhu, Huibin Tao, Fanyi Meng, Jinhui Shi

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Abstract

The period-doubling oscillation emerges with the coexistence between zero and {\pi} modes in Floquet topological insulator. Here, utilized the flexibility of the circuit, we construct the Floquet circuit with frequency-synthetic dimension and find the topological-protected deeply-subharmonic oscillations with the period extensively exceeding the doubling-driven period. In the construction framework, the periodically-driven mechanism is attained by implementing the circuit-oscillator hierarchy with the stepping-variation resonances in frequency domain. The zero and {\pi} modes that arise at the Floquet band in the circuit indicate the anomalous boundary-bulk correspondence. The coexistence of zero and {\pi} modes, results in a subharmonic oscillation with the extremely-low frequency on the edge of the Floquet circuit. Furthermore, we explore the Floquet band with the enhanced periodically-driven strength tailored by the component flexibility of the circuit. Our method provides a flexible scheme to study Floquet topological phases, and open a new path for realizing the deeply subwavelength system.

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具有频率合成维度的 Floquet 电路中的次谐波振荡

在弗洛凯拓扑绝缘体中，零模和{pi}模共存时会产生周期加倍振荡。在此，我们利用电路的灵活性，构建了具有频率合成维度的 Floquet 电路，并发现了拓扑保护的深次谐振，其周期大大超过了倍频驱动周期。在构造框架中，周期驱动机制是通过在频域中实现具有步进变化共振的电路-振荡器层次结构来实现的。在电路的 Floquet 波段出现的零模和{pi}模表明了反常的边界-大容量对应关系。零模和{\pi}模的共存导致在弗洛克电路边缘产生频率极低的次谐振。此外，我们还利用电路元件的灵活性，探索了具有增强周期驱动强度的 Floquet 波段。我们的方法为研究 Floquet 拓扑相位提供了一种灵活的方案，为实现深度亚波长系统开辟了一条新路。

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 - Other Condensed Matter

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