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Title:DUAL-COMB SPECTROSCOPY OF GREENHOUSE GAS BASED ON AN ERBIUM DUAL-COMB FIBER LASER
Author(s):Zhao, Xin
Contributor(s):Zheng, Zheng; Li, Ting; Chen, Jie; Yin, Siyao
Subject(s):Mini-symposium: Frequency-Comb Spectroscopy
Abstract:Dual-comb spectroscopy holds the promise as real-time, high-resolution spectroscopy tools. It had been applied to measure the spectral features of a wide variety of samples. With the help of nonlinear optical spectral broadening schemes, gases with absorption in different spectral windows can be monitored using the dual-comb method\footnote{K. Cossel, et al., Optica, 4, 724 (2017).}. Among them, methane is one that attracts much attention due to its important role in the greenhouse effect. Dual-comb spectroscopy based on a single mode-locked fiber laser has attracted more attention due to its simplification compared to the dual lasers systems. High-resolution optical spectroscopy had been demonstrated around the Erbium (Er) gain window by measuring the absorption of acetylene gas cell and other devices\footnote{X. Zhao, et al. Opt. Express 24, 21833 (2016).}. It had been suggested that certain degree of mutual coherence between two combs without stabilization, which is important for dual-comb applications, could exist due to some common-mode noise cancellation mechanisms. In this work, dual-comb spectroscopy based on the nonlinear spectral broadening of a single laser dual comb source at the 1550 $nm$ Er window is further investigated in ultralength (UL) wavelength band where the absorption of methane can be observed. The absorption line of methane around 1648 nm, which is ~100 nm away from the lasing wavelengths of our seed laser, can be clearly obtained. The spectral signal to noise ratio improves significantly with the increase of the number of averaged interferograms. Despite the extra noise introduced by the nonlinear spectral broadening process, the absorption line of methane can still be resolved with good quality.
Issue Date:06/20/18
Publisher:International Symposium on Molecular Spectroscopy
Citation Info:APS
Genre:Conference Paper / Presentation
Type:Text
Language:English
URI:http://hdl.handle.net/2142/100740
DOI:10.15278/isms.2018.WA02
Other Identifier(s):WA02
Date Available in IDEALS:2018-08-17
2018-12-12


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