Frequency comb with a spectral range of 0.4–5.2 µm based on a compact all-fiber laser and LiNbO3 waveguide

Lian Zhou; Xiong Qin; Yuanfeng Di; Haipeng Lou; Jianping Zhang; Zejiang Deng; Cehnglin Gu; Daping Luo; Wenxue Li

doi:10.1364/OL.498395

Frequency comb with a spectral range of 0.4–5.2 µm based on a compact all-fiber laser and LiNbO₃ waveguide

Lian Zhou, Xiong Qin, Yuanfeng Di, Haipeng Lou, Jianping Zhang, Zejiang Deng, Cehnglin Gu, Daping Luo, Wenxue Li

Institute for Advanced Study in Precision Spectroscopy

East China Normal University

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

This Letter presents a 0.4–5.2-µm frequency comb from a compact laser. We designed an integrated fiber device for a figure-9 laser and constructed an all-fiber laser system. The spectrum of the fiber laser was scaled to the broadband region using a chirped periodically poled lithium niobate waveguide. To use this system for gas sensing, a mid-infrared comb with a spectral range of 2.5–5.2 µm and average power of 2.1 mW was divided using an optical filter. The optical part was packaged in a 305 mm × 225 mm × 62 mm box. The comb was stabilized by locking the repetition rate and carrier-envelope offset frequency of the seed source. The system provided an ultrabroadband spectral range from 0.4 to 5.2 µm, which could be applied to spectroscopy, frequency metrology, and optical synthesizers.

Original language	English
Pages (from-to)	4673-4676
Number of pages	4
Journal	Optics Letters
Volume	48
Issue number	17
DOIs	https://doi.org/10.1364/OL.498395
State	Published - 1 Sep 2023

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title = "Frequency comb with a spectral range of 0.4–5.2 µm based on a compact all-fiber laser and LiNbO3 waveguide",

abstract = "This Letter presents a 0.4–5.2-µm frequency comb from a compact laser. We designed an integrated fiber device for a figure-9 laser and constructed an all-fiber laser system. The spectrum of the fiber laser was scaled to the broadband region using a chirped periodically poled lithium niobate waveguide. To use this system for gas sensing, a mid-infrared comb with a spectral range of 2.5–5.2 µm and average power of 2.1 mW was divided using an optical filter. The optical part was packaged in a 305 mm × 225 mm × 62 mm box. The comb was stabilized by locking the repetition rate and carrier-envelope offset frequency of the seed source. The system provided an ultrabroadband spectral range from 0.4 to 5.2 µm, which could be applied to spectroscopy, frequency metrology, and optical synthesizers.",

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T1 - Frequency comb with a spectral range of 0.4–5.2 µm based on a compact all-fiber laser and LiNbO3 waveguide

AU - Zhou, Lian

AU - Qin, Xiong

AU - Di, Yuanfeng

AU - Lou, Haipeng

AU - Zhang, Jianping

AU - Deng, Zejiang

AU - Gu, Cehnglin

AU - Luo, Daping

AU - Li, Wenxue

PY - 2023/9/1

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N2 - This Letter presents a 0.4–5.2-µm frequency comb from a compact laser. We designed an integrated fiber device for a figure-9 laser and constructed an all-fiber laser system. The spectrum of the fiber laser was scaled to the broadband region using a chirped periodically poled lithium niobate waveguide. To use this system for gas sensing, a mid-infrared comb with a spectral range of 2.5–5.2 µm and average power of 2.1 mW was divided using an optical filter. The optical part was packaged in a 305 mm × 225 mm × 62 mm box. The comb was stabilized by locking the repetition rate and carrier-envelope offset frequency of the seed source. The system provided an ultrabroadband spectral range from 0.4 to 5.2 µm, which could be applied to spectroscopy, frequency metrology, and optical synthesizers.

AB - This Letter presents a 0.4–5.2-µm frequency comb from a compact laser. We designed an integrated fiber device for a figure-9 laser and constructed an all-fiber laser system. The spectrum of the fiber laser was scaled to the broadband region using a chirped periodically poled lithium niobate waveguide. To use this system for gas sensing, a mid-infrared comb with a spectral range of 2.5–5.2 µm and average power of 2.1 mW was divided using an optical filter. The optical part was packaged in a 305 mm × 225 mm × 62 mm box. The comb was stabilized by locking the repetition rate and carrier-envelope offset frequency of the seed source. The system provided an ultrabroadband spectral range from 0.4 to 5.2 µm, which could be applied to spectroscopy, frequency metrology, and optical synthesizers.

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IS - 17

ER -

Frequency comb with a spectral range of 0.4–5.2 µm based on a compact all-fiber laser and LiNbO₃ waveguide

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