实现可见孤子微梳产生。

Towards visible soliton microcomb generation.

机构信息

T. J. Watson Laboratory of Applied Physics, California Institute of Technology, Pasadena, CA, 91125, USA.

State Key Laboratory of Advanced Optical Communication Systems and Networks, School of Electronics Engineering and Computer Science, Peking University, Beijing, 100871, China.

出版信息

Nat Commun. 2017 Nov 3;8(1):1295. doi: 10.1038/s41467-017-01473-9.

DOI:10.1038/s41467-017-01473-9

PMID:29101367

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5670225/

Abstract

Frequency combs have applications that extend from the ultra-violet into the mid-infrared bands. Microcombs, a miniature and often semiconductor-chip-based device, can potentially access most of these applications, but are currently more limited in spectral reach. Here, we demonstrate mode-locked silica microcombs with emission near the edge of the visible spectrum. By using both geometrical and mode-hybridization dispersion control, devices are engineered for soliton generation while also maintaining optical Q factors as high as 80 million. Electronics-bandwidth-compatible (20 GHz) soliton mode locking is achieved with low pumping powers (parametric oscillation threshold powers as low as 5.4 mW). These are the shortest wavelength soliton microcombs demonstrated to date and could be used in miniature optical clocks. The results should also extend to visible and potentially ultra-violet bands.

摘要

梳状频率在应用上涵盖了从紫外线到中红外线波段。微梳，一种基于微型半导体芯片的设备，可能会应用到大部分的这些领域，但目前在光谱覆盖范围上更有限。在这里，我们展示了在可见光谱边缘附近发射的锁模二氧化硅微梳。通过同时使用几何和模式混合色散控制，器件在用于孤子产生的同时，也保持高达 8000 万的光学 Q 因子。通过使用低泵浦功率（参数振荡阈值功率低至 5.4mW）实现了与电子带宽兼容（20GHz）的孤子锁模。这些是迄今为止演示的最短波长孤子微梳，可用于微型光学时钟。结果也应该会扩展到可见光和潜在的紫外线波段。

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实现可见孤子微梳产生。

Towards visible soliton microcomb generation.

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