拓扑绝缘体BiSe中太赫兹极化激元的实空间纳米成像。

Real-space nanoimaging of THz polaritons in the topological insulator BiSe.

作者信息

Chen Shu, Bylinkin Andrei, Wang Zhengtianye, Schnell Martin, Chandan Greeshma, Li Peining, Nikitin Alexey Y, Law Stephanie, Hillenbrand Rainer

机构信息

CIC nanoGUNE BRTA, 20018, Donostia - San Sebastián, Spain.

Donostia International Physics Center (DIPC), 20018, Donostia - San Sebastián, Spain.

出版信息

Nat Commun. 2022 Mar 16;13(1):1374. doi: 10.1038/s41467-022-28791-x.

DOI:10.1038/s41467-022-28791-x

PMID:35296642

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8927118/

Abstract

Plasmon polaritons in topological insulators attract attention from a fundamental perspective and for potential THz photonic applications. Although polaritons have been observed by THz far-field spectroscopy on topological insulator microstructures, real-space imaging of propagating THz polaritons has been elusive so far. Here, we show spectroscopic THz near-field images of thin BiSe layers (prototypical topological insulators) revealing polaritons with up to 12 times increased momenta as compared to photons of the same energy and decay times of about 0.48 ps, yet short propagation lengths. From the images we determine and analyze the polariton dispersion, showing that the polaritons can be explained by the coupling of THz radiation to various combinations of Dirac and massive carriers at the BiSe surfaces, massive bulk carriers and optical phonons. Our work provides critical insights into the nature of THz polaritons in topological insulators and establishes instrumentation and methodology for imaging of THz polaritons.

摘要

拓扑绝缘体中的表面等离激元极化激元从基础研究角度以及潜在的太赫兹光子学应用方面都备受关注。尽管通过太赫兹远场光谱已在拓扑绝缘体微结构上观测到了极化激元，但迄今为止，传播中的太赫兹极化激元的实空间成像仍难以实现。在此，我们展示了薄BiSe层（典型的拓扑绝缘体）的太赫兹近场光谱图像，揭示了与相同能量光子相比动量增加达12倍的极化激元，其衰减时间约为0.48皮秒，但传播长度较短。从这些图像中我们确定并分析了极化激元色散，表明极化激元可由太赫兹辐射与BiSe表面狄拉克和大质量载流子的各种组合、大质量体载流子以及光学声子的耦合来解释。我们的工作为深入了解拓扑绝缘体中太赫兹极化激元的本质提供了关键见解，并建立了用于太赫兹极化激元成像的仪器和方法。

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拓扑绝缘体BiSe中太赫兹极化激元的实空间纳米成像。

Real-space nanoimaging of THz polaritons in the topological insulator BiSe.

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