Bulk-edge correspondence recovered in incompressible geophysical flows

Yohei Onuki, Antoine Venaille, Pierre Delplace
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Abstract

Bulk-edge correspondence is a cornerstone in topological physics, establishing a connection between the number of unidirectional edge modes in physical space and a Chern number, an integer that counts phase singularities of the eigenmodes in parameter space. In continuous media, violation of this correspondence has been reported when some of the frequency wave bands are unbounded, resulting in weak topological protection of chiral edge states. Here, we propose a strategy to reestablish strong bulk-edge correspondence in incompressible rotating stratified flows, taking advantage of a natural cutoff frequency provided by density stratification. The key idea involves the introduction of an auxiliary field to handle the divergence-free constraint. This approach highlights the resilience of internal coastal Kelvin waves near vertical walls under varying boundary conditions.

Abstract Image

在不可压缩地球物理流中恢复块边对应关系
块边对应是拓扑物理学的基石,它建立了物理空间中单向边模的数量与切尔数之间的联系,切尔数是一个整数,用来计算参数空间中特征模的相位奇异性。据报道,在连续介质中,当某些频率波段无界时,这种对应关系就会遭到破坏,导致手性边缘态的拓扑保护减弱。在这里,我们提出了一种策略,利用密度分层提供的自然截止频率,在不可压缩旋转分层流中重建强体边对应关系。其关键思路是引入一个辅助场来处理无发散约束。这种方法强调了在不同边界条件下垂直壁附近的内部沿岸开尔文波的弹性。
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CiteScore
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