GSM演进的增强数据速率
超材料
模式(计算机接口)
临界性
热的
对流
材料科学
拓扑(电路)
物理
机械
光学
气象学
计算机科学
电信
核物理学
组合数学
操作系统
数学
作者
Zhoufei Liu,Jiping Huang,Ying Li
标识
DOI:10.1103/physrevapplied.23.014059
摘要
Convection offers a dynamic and flexible approach to achieving a variety of alternative physical phenomena beyond pure conduction. Here, we demonstrate that thermal metamaterials with convection modulation enable the realization of non-Hermitian topological edge modes and bulk-mode criticality. We illustrate that a periodic modulation can induce localized edge modes within the band gap. The temperature field of the topological state is localized at the edge rings, decaying exponentially at a fixed rate. Additionally, we introduce an extended-localized criticality through the quasiperiodic convection modulation in thermotics. The convections have an advantage of fantastic tunability in the application. Our work proposes a scheme for implementing topological modes and bulk-mode criticality through modulating convection in diffusion systems, paving the way for the design of reconfigurable thermal devices.
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