Hyperbolic Topological Frequency Combs

IF 6.5 1区物理与天体物理 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY

ACS Photonics Pub Date : 2024-12-24 DOI:10.1021/acsphotonics.4c01546

Lei Huang, Weixuan Zhang, Yingxu Zong, Lu He, Xiangdong Zhang

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引用次数: 0

Abstract

On-chip generation of optical frequency combs (OFCs) holds fundamental significance for a wide range of applications, such as precision metrology, optical communications, and so on. Recent investigations have shown that OFCs can be generated in a topologically coupled array of ring resonators, providing a novel avenue to engineer nested temporal solitons and robust comb spectra. However, limited by the bulk-edge correspondence, the implementation of topological frequency combs always requires a substantial number of auxiliary bulk ring resonators, diminishing the ratio of edge ring resonators for OFC generation. Here, we propose a new approach to generate OFCs and nested temporal solitons using hyperbolic photonic topological insulators. Our designed hyperbolic topological OFCs exhibit a significantly reduced frequency spacing compared to that of conventional topological OFCs with the same number of optical rings. Thus, for achieving the same frequency spacing, hyperbolic topological OFCs require much fewer ring resonators than conventional topological OFCs in Euclidean space, giving an extremely improved utilization efficiency of ring resonators. Furthermore, the robustness of hyperbolic topological OFCs is also demonstrated. Our results open up a promising avenue for establishing highly efficient nonlinear topological devices.

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双曲拓扑频率梳

光频梳（OFCs）的片上生成对于精密计量、光通信等广泛应用具有基础性意义。最近的研究表明，OFCs可以在环形谐振器的拓扑耦合阵列中产生，为设计嵌套时间孤子和鲁棒梳状谱提供了新的途径。然而，受体积-边缘对应的限制，拓扑频率梳的实现总是需要大量的辅助体积环谐振器，这降低了边缘环谐振器在OFC生成中的比例。在这里，我们提出了一种利用双曲光子拓扑绝缘子生成OFCs和嵌套时间孤子的新方法。我们设计的双曲拓扑OFCs与具有相同光学环数的传统拓扑OFCs相比，具有显着降低的频率间隔。因此，为了实现相同的频率间隔，双曲拓扑OFCs在欧几里德空间中需要的环形谐振器比传统拓扑OFCs少得多，从而极大地提高了环形谐振器的利用效率。此外，还证明了双曲拓扑OFCs的鲁棒性。我们的研究结果为建立高效的非线性拓扑器件开辟了一条有前途的途径。

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来源期刊

ACS Photonics NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY

CiteScore

11.90

自引率

5.70%

发文量

438

审稿时长

2.3 months

期刊介绍： Published as soon as accepted and summarized in monthly issues, ACS Photonics will publish Research Articles, Letters, Perspectives, and Reviews, to encompass the full scope of published research in this field.