Quantitative gas pressure measurement by molecular spectroscopy using chip-based supercontinuum in the mid-infrared
Date
2023
Authors
Hwang, Joonhyuk
Park, Soobong
Ko, Kiyoung
Suk, Daewon
Lee, Yong-Hee
Choi, Duk
Rotermund, Fabian
Ko, Kwang-Hoon
Lee, Hanseuk
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Optical Society of America
Abstract
We demonstrate the quantitative pressure measurement of gas molecules in the mid-infrared using chip-based supercontinuum and cepstrum analysis without additional measurements for baseline normalization. A supercontinuum generated in an on-chip waveguide made of chalcogenide glass having high nonlinearity passes through CO gas and provides a transmission spectrum. The gas absorption information is deconvoluted from the original supercontinuum spectral information containing temporal fluctuation by cepstrum analysis and extracted simply by applying a bandpass filter in the temporal domain. The gas pressure estimated from the extracted absorption information is consistent with the value measured by a pressure gauge within a difference of 1.25%, despite spectral fluctuations in the supercontinuum baseline comparable to the spectral depth of the gas absorption lines.
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Optics Express
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Journal article
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Open Access
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Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement
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