Direct quantification of robustness in topologically-protected photonic edge states at telecom wavelengths

Active Photonic Platforms XIII Pub Date : 2021-08-01 DOI:10.1117/12.2594527
S. Arora, T. Bauer, R. Barczyk, E. Verhagen, L. Kuipers
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Abstract

Topologically tailored photonic crystals offer robust transport of optical states in quantum and classical systems. However, quantifying the robustness of edge states in topologically protected PhCs has remained elusive. In our recent work, we report a rigorous quantitative evaluation of topological photonic edge eigenstates, emulating the quantum valley Hall effect (VPC), and analyze their transport properties in the telecom wavelength range using a phase-resolved near-field optical microscope. Our results demonstrate that the backscattering energy ratio for the VPC is two orders of magnitude smaller compared to that in a conventional W1 waveguide. Such an evaluation opens a pathway for creating quantum photonic networks that can achieve secure and robust communications.
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电信波长下拓扑保护光子边缘态鲁棒性的直接量化
拓扑定制光子晶体在量子和经典系统中提供光学态的鲁棒输运。然而,量化拓扑保护PhCs边缘状态的鲁棒性仍然是难以捉摸的。在我们最近的工作中,我们报告了模拟量子谷霍尔效应(VPC)的拓扑光子边缘特征态的严格定量评估,并使用相位分辨近场光学显微镜分析了它们在电信波长范围内的输运性质。研究结果表明,与传统W1波导相比,VPC的后向散射能量比小了两个数量级。这样的评估为创建量子光子网络开辟了一条途径,可以实现安全和稳健的通信。
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Active Photonic Platforms XIII
Active Photonic Platforms XIII
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