Persistent nodal magnon-photon polariton in ferromagnetic heterostructures

IF 3.7 2区物理与天体物理 Q1 Physics and Astronomy Physical Review B Pub Date : 2024-11-08 DOI:10.1103/physrevb.110.184403

Zhuolun Qiu, Xi-Han Zhou, Hanchen Wang, Guang Yang, Tao Yu

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Abstract

Exceptional points with coalescence of eigenvalues and eigenvectors are spectral singularities in the parameter space, achieving which often needs fine-tuning of parameters in quantum systems. We predict a persistent realization of nodal magnon-photon polariton, i.e., a polariton of long wavelength without any gap splitting in a thin ferromagnetic insulator film sandwiched by two normal metals, which persistently exists when the ferromagnet is sufficiently thick

\sim 100

nm due to the joint effect of dissipation and dissipative coupling. We perform the model calculation beyond the perturbation theory using a classical approach, develop a quantum scheme able to account for the Ohmic dissipation, and find ultrastrong coupling with coupling strength comparable to the bare magnon frequency. Via revealing a simple conversion relation, we extend this formalism to superconductors and predict the gap opened by the ultrastrong coupling strongly depends on the direction of polariton propagation. Our findings may help search for robust non-Hermitian topological phases in magnonic and spintronic devices.

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铁磁异质结构中的持久结点磁子-光子极化子

特征值和特征向量凝聚的异常点是参数空间中的光谱奇异点，要实现这些奇异点往往需要对量子系统中的参数进行微调。由于耗散和耗散耦合的共同作用，当铁磁体足够厚 ∼ 100 nm 时，这种现象会持续存在。我们使用经典方法进行了超越扰动理论的模型计算，开发了一种能够解释欧姆耗散的量子方案，并发现了耦合强度与裸磁子频率相当的超强耦合。通过揭示一个简单的转换关系，我们将这一形式主义扩展到了超导体，并预测超强耦合打开的间隙在很大程度上取决于极化子的传播方向。我们的发现可能有助于在磁子和自旋电子器件中寻找稳健的非赫米提拓扑相。

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来源期刊

Physical Review B 物理-物理：凝聚态物理

CiteScore

6.70

自引率

32.40%

发文量

审稿时长

3.0 months

期刊介绍： Physical Review B (PRB) is the world’s largest dedicated physics journal, publishing approximately 100 new, high-quality papers each week. The most highly cited journal in condensed matter physics, PRB provides outstanding depth and breadth of coverage, combined with unrivaled context and background for ongoing research by scientists worldwide. PRB covers the full range of condensed matter, materials physics, and related subfields, including: -Structure and phase transitions -Ferroelectrics and multiferroics -Disordered systems and alloys -Magnetism -Superconductivity -Electronic structure, photonics, and metamaterials -Semiconductors and mesoscopic systems -Surfaces, nanoscience, and two-dimensional materials -Topological states of matter

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