在二氧化硅脊形波导中产生相干的紫外到近红外光。

Coherent ultra-violet to near-infrared generation in silica ridge waveguides.

机构信息

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

Time and Frequency Division, National Institute of Standards and Technology, Boulder, Colorado 80305, USA.

出版信息

Nat Commun. 2017 Jan 9;8:13922. doi: 10.1038/ncomms13922.

DOI:10.1038/ncomms13922

PMID:28067233

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5227738/

Abstract

Short duration, intense pulses of light can experience dramatic spectral broadening when propagating through lengths of optical fibre. This continuum generation process is caused by a combination of nonlinear optical effects including the formation of dispersive waves. Optical analogues of Cherenkov radiation, these waves allow a pulse to radiate power into a distant spectral region. In this work, efficient and coherent dispersive wave generation of visible to ultraviolet light is demonstrated in silica waveguides on a silicon chip. Unlike fibre broadeners, the arrays provide a wide range of emission wavelength choices on a single, compact chip. This new capability is used to simplify offset frequency measurements of a mode-locked frequency comb. The arrays can also enable mode-locked lasers to attain unprecedented tunable spectral reach for spectroscopy, bioimaging, tomography and metrology.

摘要

当短时间、高强度的光脉冲在光纤中传播时，其光谱会经历显著的展宽。这种连续谱产生过程是由包括色散波形成在内的多种非线性光学效应共同作用导致的。这些波类似于切伦科夫辐射的光学模拟，它们允许脉冲将功率辐射到遥远的光谱区域。在这项工作中，我们在硅片上的二氧化硅波导中演示了可见光到紫外光的高效相干色散波产生。与光纤展宽器不同的是，这些阵列在单个紧凑的芯片上提供了广泛的发射波长选择。这种新功能可用于简化锁模频率梳的偏移频率测量。这些阵列还可使锁模激光器实现前所未有的可调谐光谱覆盖范围，从而应用于光谱学、生物成像、层析成像和计量学。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c99d/5227738/82329eacfdbd/ncomms13922-f1.jpg

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在二氧化硅脊形波导中产生相干的紫外到近红外光。

Coherent ultra-violet to near-infrared generation in silica ridge waveguides.

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