Direct measurement of topological invariants through temporal adiabatic evolution of bulk states in the synthetic Brillouin zone

arXiv - PHYS - Applied Physics Pub Date : 2024-08-06 DOI:arxiv-2408.02984

Zhao-Xian Chen, Yuan-hong Zhang, Xiao-Chen Sun, Ruo-Yang Zhang, Jiang-Shan Tang, Xin Yang, Xue-Feng Zhu, Yan-Qing Lu

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Abstract

Mathematically, topological invariants arise from the parallel transport of eigenstates on the energy bands, which, in physics, correspond to the adiabatic dynamical evolution of transient states. It determines the presence of boundary states, while lacking direct measurements. Here, we develop time-varying programmable coupling circuits between acoustic cavities to mimic the Hamiltonians in the Brillouin zone, with which excitation and adiabatic evolution of bulk states are realized in a unit cell. By extracting the Berry phases of the bulk band, topological invariants, including the Zak phase for the SSH model and the Chern number for the AAH model, are obtained convincingly. The bulk state evolution also provides insight into the topological charges of our newly developed non-Abelian models, which are also verified by observing the adiabatic eigenframe rotation. Our work not only provides a general recipe for telling various topological invariants but also sheds light on transient acoustic wave manipulations.

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通过合成布里渊区体态的时间绝热演化直接测量拓扑不变量

从数学上讲，拓扑不变式产生于能带上特征状态的平行传输，在物理学中，它对应于瞬态的绝热动力学演化。它可以确定边界态的存在，但缺乏直接测量。在这里，我们开发了声腔之间的时变可编程耦合电路，以模仿布里渊区的哈密尔顿因子，从而在单元格中实现体态的激发和绝热演化。通过提取体带的贝里相，可以令人信服地获得拓扑不变式，包括 SSH 模型的扎克相和 AAH 模型的切尔诺数。体态演化也为我们新开发的非阿贝尔模型的拓扑电荷提供了洞察力。我们的工作不仅提供了讲述各种拓扑不变性的一般方法，而且还揭示了瞬态声波操作。

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arXiv - PHYS - Applied Physics

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