Mid-infrared electro-optic dual-comb spectroscopy with feedforward frequency stepping

Xinyi Ren; Hu Dai; Detian Li; Kun Huang; Mengyun Hu; Tianjian Lv; Ming Yan; Heping Zeng

doi:10.1364/OL.385464

Mid-infrared electro-optic dual-comb spectroscopy with feedforward frequency stepping

Xinyi Ren, Hu Dai, Detian Li, Kun Huang, Mengyun Hu, Tianjian Lv, Ming Yan, Heping Zeng

Institute for Advanced Study in Precision Spectroscopy

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

15 Scopus citations

Abstract

In this Letter, we utilize an acoustic-optic frequency shifter in a feedforward manner for automatic interpolation of dual-comb spectroscopy, where frequency tuning can be achieved at 5.45 THz/s with the step size precisely locked to the line spacing (54.5 MHz) of a referenced optical comb without complicated electronics or control programs. Our dual-comb spectrometer involves two near-infrared electro-optic combs at 25 GHz line spacings, nonlinearly converted into the mid-infrared region, revealing fundamental absorption lines of methane gas at 54.5 MHz resolution within a spectral range from 88.04 to 89.04 THz. The method and the system may be useful in many applications, including gas sensing.

Original language	English
Pages (from-to)	776-779
Number of pages	4
Journal	Optics Letters
Volume	45
Issue number	3
DOIs	https://doi.org/10.1364/OL.385464
State	Published - 1 Feb 2020

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abstract = "In this Letter, we utilize an acoustic-optic frequency shifter in a feedforward manner for automatic interpolation of dual-comb spectroscopy, where frequency tuning can be achieved at 5.45 THz/s with the step size precisely locked to the line spacing (54.5 MHz) of a referenced optical comb without complicated electronics or control programs. Our dual-comb spectrometer involves two near-infrared electro-optic combs at 25 GHz line spacings, nonlinearly converted into the mid-infrared region, revealing fundamental absorption lines of methane gas at 54.5 MHz resolution within a spectral range from 88.04 to 89.04 THz. The method and the system may be useful in many applications, including gas sensing.",

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AU - Ren, Xinyi

AU - Dai, Hu

AU - Li, Detian

AU - Huang, Kun

AU - Hu, Mengyun

AU - Lv, Tianjian

AU - Yan, Ming

AU - Zeng, Heping

PY - 2020/2/1

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N2 - In this Letter, we utilize an acoustic-optic frequency shifter in a feedforward manner for automatic interpolation of dual-comb spectroscopy, where frequency tuning can be achieved at 5.45 THz/s with the step size precisely locked to the line spacing (54.5 MHz) of a referenced optical comb without complicated electronics or control programs. Our dual-comb spectrometer involves two near-infrared electro-optic combs at 25 GHz line spacings, nonlinearly converted into the mid-infrared region, revealing fundamental absorption lines of methane gas at 54.5 MHz resolution within a spectral range from 88.04 to 89.04 THz. The method and the system may be useful in many applications, including gas sensing.

AB - In this Letter, we utilize an acoustic-optic frequency shifter in a feedforward manner for automatic interpolation of dual-comb spectroscopy, where frequency tuning can be achieved at 5.45 THz/s with the step size precisely locked to the line spacing (54.5 MHz) of a referenced optical comb without complicated electronics or control programs. Our dual-comb spectrometer involves two near-infrared electro-optic combs at 25 GHz line spacings, nonlinearly converted into the mid-infrared region, revealing fundamental absorption lines of methane gas at 54.5 MHz resolution within a spectral range from 88.04 to 89.04 THz. The method and the system may be useful in many applications, including gas sensing.

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Mid-infrared electro-optic dual-comb spectroscopy with feedforward frequency stepping

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