Unconventional Floquet Topological Phases from Quantum Engineering of Band-Inversion Surfaces
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论文类型:期刊论文
发表刊物:PRX Quantum
收录刊物:SCI
卷号:3
期号:4
页面范围:040312
DOI码:10.1103/PRXQuantum.3.040312
发表时间:2022-10-27
影响因子:7.512
摘要:Floquet engineering provides a toolbox for the realization of novel quantum phases without static counterparts, while conventionally the realization may rely on the manipulation of complex temporal evolution. Here, we propose a systematic and high-precision scheme to realize unconventional Floquet topological phases by engineering local band structures in particular momentum subspaces called band- inversion surfaces (BISs). This scheme is based on a new bulk-boundary correspondence that for a class of generic d-dimensional periodically driven systems, the local topological structure formed in each BIS uniquely determines the features of gapless boundary modes. By engineering the BIS configuration, we demonstrate a highly efficient approach to realize, manipulate, and detect novel Floquet topological phases. In particular, we predict a two-dimensional (2D) anomalous Floquet valley-Hall phase that carries trivial global bulk topological invariants but features protected counterpropagating edge states in each quasienergy gap. The unconventional nature of this novel 2D phase is further illustrated by the examination of edge-geometry dependence and its robustness to disorder scattering. Anomalous chiral topological phases with valley protection in higher dimensions are also predicted and studied. Our systematic and highly feasible scheme opens up a new route to realizing and engineering unconventional Floquet topological phases for ultracold atoms and other quantum simulators.
发布期刊链接:https://journals.aps.org/prxquantum/abstract/10.1103/PRXQuantum.3.040312