Characterizing the non-Hermitian route to higher-order topology via fractional mode charges in acoustic systems

IF 3.5 2区 物理与天体物理 Q2 PHYSICS, APPLIED
Wenbin Lv, Taotao Zheng, Han Cao, Jinyang He, Chudong Xu, Ming-Hui Lu
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Abstract

Non-Hermitian factors play a key role in introducing changes to the topology of acoustic systems, by significantly expanding the classification of topological phases beyond traditional Hermitian theory and presenting challenges to the conventional bulk–boundary correspondence. Traditional Hermitian theory cannot fully describe the complicated behavior of systems interacting with their environment, thus non-Hermitian theory emerged. Currently, most non-Hermitian topological systems derive their phases from Hermitian components, which entails concurrently considering the gain and loss of the system. In the study of higher-order topological insulators, higher-order topological states are usually achieved by modulating coupling strengths. While traditionally it is viewed that dissipation in topological systems is detrimental to the topological states, recent research studies have challenged this perspective. The nontrivial topology can arise by introducing loss of a specific configuration in a trivial phase. In this study, through finite-element simulations of coupled acoustic cavity systems from one-dimensional to three-dimensional structure, it is illustrated how intentionally introducing non-Hermitian loss can induce the higher-order topology. More crucially, we have simulated the acoustic local density of states (LDOS) and calculated fractional charge modes and can directly observe and prove through LDOS that introducing loss can convert a trivial system into a topological one. Both theoretical and simulated results show that the LDOS can be used to calculate fractional charge modes, effectively characterizing higher-order topological states in non-Hermitian acoustic systems. This study carves out a research pathway for the future of non-Hermitian acoustic topology.
通过声学系统中的分数模式电荷表征通向高阶拓扑的非赫米提路径
非赫米因子在改变声学系统拓扑结构方面起着关键作用,它大大扩展了拓扑相的分类,超越了传统的赫米特理论,并对传统的体界对应关系提出了挑战。传统的赫米提理论无法完全描述系统与环境相互作用的复杂行为,因此出现了非赫米提理论。目前,大多数非赫米拓扑系统的相位都来自赫米分量,这就需要同时考虑系统的增益和损耗。在高阶拓扑绝缘体的研究中,通常通过调节耦合强度来实现高阶拓扑状态。传统观点认为,拓扑系统中的损耗不利于拓扑状态,但最近的研究对这一观点提出了挑战。非琐碎拓扑可能通过在琐碎相中引入特定构型的损耗而产生。在本研究中,通过对从一维到三维结构的耦合声腔系统进行有限元模拟,说明了有意引入非赫米失是如何诱发高阶拓扑的。更重要的是,我们模拟了声学局部态密度(LDOS)并计算了分数电荷模式,通过 LDOS 可以直接观察并证明引入损耗可以将三阶系统转化为拓扑系统。理论和模拟结果都表明,LDOS 可用于计算分数电荷模式,有效表征非赫米提声学系统中的高阶拓扑态。这项研究为非赫米提声学拓扑学的未来开辟了一条研究道路。
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来源期刊
Applied Physics Letters
Applied Physics Letters 物理-物理:应用
CiteScore
6.40
自引率
10.00%
发文量
1821
审稿时长
1.6 months
期刊介绍: Applied Physics Letters (APL) features concise, up-to-date reports on significant new findings in applied physics. Emphasizing rapid dissemination of key data and new physical insights, APL offers prompt publication of new experimental and theoretical papers reporting applications of physics phenomena to all branches of science, engineering, and modern technology. In addition to regular articles, the journal also publishes invited Fast Track, Perspectives, and in-depth Editorials which report on cutting-edge areas in applied physics. APL Perspectives are forward-looking invited letters which highlight recent developments or discoveries. Emphasis is placed on very recent developments, potentially disruptive technologies, open questions and possible solutions. They also include a mini-roadmap detailing where the community should direct efforts in order for the phenomena to be viable for application and the challenges associated with meeting that performance threshold. Perspectives are characterized by personal viewpoints and opinions of recognized experts in the field. Fast Track articles are invited original research articles that report results that are particularly novel and important or provide a significant advancement in an emerging field. Because of the urgency and scientific importance of the work, the peer review process is accelerated. If, during the review process, it becomes apparent that the paper does not meet the Fast Track criterion, it is returned to a normal track.
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