Unconventional level attraction in cavity axion polariton of antiferromagnetic topological insulator

arXiv: Mesoscale and Nanoscale Physics Pub Date : 2020-12-17 DOI:10.21203/RS.3.RS-120479/V1

Yang Xiao, Huaiqiang Wang, Dinghui Wang, R. Lu, Xiaohong Yan, Hong Guo, C.-M. Hu, K. Xia, Haijun Zhang, D. Xing

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引用次数: 1

Abstract

Strong coupling between cavity photons and various excitations in condensed matters boosts the field of light-matter interaction and generates several exciting sub-fields, such as cavity optomechanics and cavity magnon polariton. Axion quasiparticles, emerging in topological insulators, were predicted to strongly couple with the light and generate the so-called axion polariton. Here, we demonstrate that there arises a gapless level attraction in cavity axion polariton of antiferromagnetic topological insulators, which originates from a nonlinear interaction between axion and the odd-order resonance of cavity. Such a novel level attraction is essentially different from conventional level attractions with the mechanism of either a linear coupling or a dissipation-mediated interaction, and also different from the level repulsion induced by the strong coupling in common polaritons. Our results reveal a new mechanism of level attractions, and open up new roads for exploring the axion polariton with cavity technologies. They have potential applications for quantum information and dark matter research.

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反铁磁拓扑绝缘体轴子极化子腔中的非常规能级吸引

在凝聚态物质中，腔光子与各种激发之间的强耦合增强了光-物质相互作用场，并产生了几个激发子场，如腔光力学和腔磁振子极化子场。在拓扑绝缘体中出现的轴子准粒子被预测与光强耦合并产生所谓的轴子极化子。本文证明了反铁磁拓扑绝缘体的空腔轴子极化子中存在无间隙能级吸引，这是由于空腔的奇级共振与轴子的非线性相互作用引起的。这种新颖的能级吸引与传统的线性耦合或耗散介导的相互作用机制的能级吸引有着本质的不同，也不同于普通极化子中强耦合引起的能级排斥。我们的研究结果揭示了能级吸引的新机制，为利用空腔技术探索轴子极化子开辟了新的道路。它们在量子信息和暗物质研究方面有潜在的应用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv: Mesoscale and Nanoscale Physics

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