Power-efficient generation of two-octave mid-IR frequency combs in a germanium microresonator

Yuhao Guo; Jing Wang; Zhaohong Han; Kazumi Wada; Lionel C. Kimerling; Anuradha M. Agarwal; Jurgen Michel; Zheng Zheng; Guifang Li; Lin Zhang

doi:10.1515/nanoph-2017-0131

Power-efficient generation of two-octave mid-IR frequency combs in a germanium microresonator

Yuhao Guo
, Jing Wang
, Zhaohong Han
, Kazumi Wada
, Lionel C. Kimerling
, Anuradha M. Agarwal
, Jurgen Michel
, Zheng Zheng
, Guifang Li
, Lin Zhang^*

^*此作品的通讯作者

电子信息工程学院

Tianjin University
Massachusetts Institute of Technology
The University of Tokyo
Wuhan University
University of Central Florida

科研成果: 期刊稿件 › 文章 › 同行评审

22 引用（Scopus）

摘要

Octave-spanning frequency comb generation in the deep mid-infrared (>5.5 μm) typically requires a high pump power, which is challenging because of the limited power of narrow linewidth lasers at long wavelengths. We propose twofold dispersion engineering for a Ge-on-Si microcavity to enable both dispersion flattening and dispersion hybridization over a wide band from 3.5 to 10 μm. A two-octave mode-locked Kerr frequency comb can be generated from 2.3 to 10.2 μm, with a pump power as low as 180 mW. It has been shown that dispersion flattening greatly enhances the spectral broadening of the generated comb, whereas dispersion hybridization improves its spectral flatness.

源语言	英语
页（从-至）	1461-1467
页数	7
期刊	Nanophotonics
卷	7
期	8
DOI	https://doi.org/10.1515/nanoph-2017-0131
出版状态	已出版 - 2018

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10.1515/nanoph-2017-0131

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title = "Power-efficient generation of two-octave mid-IR frequency combs in a germanium microresonator",

abstract = "Octave-spanning frequency comb generation in the deep mid-infrared (>5.5 μm) typically requires a high pump power, which is challenging because of the limited power of narrow linewidth lasers at long wavelengths. We propose twofold dispersion engineering for a Ge-on-Si microcavity to enable both dispersion flattening and dispersion hybridization over a wide band from 3.5 to 10 μm. A two-octave mode-locked Kerr frequency comb can be generated from 2.3 to 10.2 μm, with a pump power as low as 180 mW. It has been shown that dispersion flattening greatly enhances the spectral broadening of the generated comb, whereas dispersion hybridization improves its spectral flatness.",

keywords = "dispersion engineering, integrated optics devices, mid-infrared, nonlinear optics, optical frequency comb",

author = "Yuhao Guo and Jing Wang and Zhaohong Han and Kazumi Wada and Kimerling, \{Lionel C.\} and Agarwal, \{Anuradha M.\} and Jurgen Michel and Zheng Zheng and Guifang Li and Lin Zhang",

note = "Publisher Copyright: {\textcopyright} 2018 Lin Zhang et al., published by De Gruyter, Berlin/Boston.",

year = "2018",

doi = "10.1515/nanoph-2017-0131",

language = "英语",

volume = "7",

pages = "1461--1467",

journal = "Nanophotonics",

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TY - JOUR

T1 - Power-efficient generation of two-octave mid-IR frequency combs in a germanium microresonator

AU - Guo, Yuhao

AU - Wang, Jing

AU - Han, Zhaohong

AU - Wada, Kazumi

AU - Kimerling, Lionel C.

AU - Agarwal, Anuradha M.

AU - Michel, Jurgen

AU - Zheng, Zheng

AU - Li, Guifang

AU - Zhang, Lin

PY - 2018

Y1 - 2018

N2 - Octave-spanning frequency comb generation in the deep mid-infrared (>5.5 μm) typically requires a high pump power, which is challenging because of the limited power of narrow linewidth lasers at long wavelengths. We propose twofold dispersion engineering for a Ge-on-Si microcavity to enable both dispersion flattening and dispersion hybridization over a wide band from 3.5 to 10 μm. A two-octave mode-locked Kerr frequency comb can be generated from 2.3 to 10.2 μm, with a pump power as low as 180 mW. It has been shown that dispersion flattening greatly enhances the spectral broadening of the generated comb, whereas dispersion hybridization improves its spectral flatness.

AB - Octave-spanning frequency comb generation in the deep mid-infrared (>5.5 μm) typically requires a high pump power, which is challenging because of the limited power of narrow linewidth lasers at long wavelengths. We propose twofold dispersion engineering for a Ge-on-Si microcavity to enable both dispersion flattening and dispersion hybridization over a wide band from 3.5 to 10 μm. A two-octave mode-locked Kerr frequency comb can be generated from 2.3 to 10.2 μm, with a pump power as low as 180 mW. It has been shown that dispersion flattening greatly enhances the spectral broadening of the generated comb, whereas dispersion hybridization improves its spectral flatness.

KW - dispersion engineering

KW - integrated optics devices

KW - mid-infrared

KW - nonlinear optics

KW - optical frequency comb

UR - https://www.scopus.com/pages/publications/85051240152

U2 - 10.1515/nanoph-2017-0131

DO - 10.1515/nanoph-2017-0131

M3 - 文章

AN - SCOPUS:85051240152

SN - 2192-8606

VL - 7

SP - 1461

EP - 1467

JO - Nanophotonics

JF - Nanophotonics

IS - 8

ER -

Power-efficient generation of two-octave mid-IR frequency combs in a germanium microresonator

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