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Main Authors: Zuo, Maowu, Ke, Yongguan, Lei, Zhoutao, Lee, Chaohong
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.00582
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author Zuo, Maowu
Ke, Yongguan
Lei, Zhoutao
Lee, Chaohong
author_facet Zuo, Maowu
Ke, Yongguan
Lei, Zhoutao
Lee, Chaohong
contents It is challenging to distinguish Floquet Chern insulator (FCI) and Floquet anomalous topological insulator (FATI) because of their common features of chiral edge states and far away from equilibrium. A hybrid straight-curved waveguide array is proposed to enable topological phase transitions from FCI to FATI and show how to diagnose the two phases using Bloch oscillations. As a proof of principle, the hybrid straight-curved waveguide array is designed as a straight honeycomb waveguide array nested in an asynchronous curved Kagome waveguide array. Under a two-dimensional (2D) tilted potential created by the spatial gradient of refractive indices, an initial Gaussian-like wavepacket undergoes 2D Bloch oscillations, displaying quasi-quantized displacement in the FCI and no drift in the FATI. This approach offers a direct and unambiguous method to diagnose Floquet topological phases from the bulk response.
format Preprint
id arxiv_https___arxiv_org_abs_2508_00582
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Diagnosing Floquet Chern and anomalous topological insulators based on Bloch oscillations
Zuo, Maowu
Ke, Yongguan
Lei, Zhoutao
Lee, Chaohong
Optics
It is challenging to distinguish Floquet Chern insulator (FCI) and Floquet anomalous topological insulator (FATI) because of their common features of chiral edge states and far away from equilibrium. A hybrid straight-curved waveguide array is proposed to enable topological phase transitions from FCI to FATI and show how to diagnose the two phases using Bloch oscillations. As a proof of principle, the hybrid straight-curved waveguide array is designed as a straight honeycomb waveguide array nested in an asynchronous curved Kagome waveguide array. Under a two-dimensional (2D) tilted potential created by the spatial gradient of refractive indices, an initial Gaussian-like wavepacket undergoes 2D Bloch oscillations, displaying quasi-quantized displacement in the FCI and no drift in the FATI. This approach offers a direct and unambiguous method to diagnose Floquet topological phases from the bulk response.
title Diagnosing Floquet Chern and anomalous topological insulators based on Bloch oscillations
topic Optics
url https://arxiv.org/abs/2508.00582