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Mid-infrared absorption spectroscopy of ethylene at 10.5 µm using a chalcogenide hollow-core antiresonant fiber

Mid-infrared absorption spectroscopy of ethylene at 10.5 µm using a chalcogenide hollow-core antiresonant fiber
Mid-infrared absorption spectroscopy of ethylene at 10.5 µm using a chalcogenide hollow-core antiresonant fiber

We demonstrate the mid-infrared absorption spectroscopy with a chalcogenide glass IG3 hollow-core antiresonant fiber (HC-ARF) for gas sensing at 10.5 µm. A continuous-wave quantum cascade laser (CW-QCL) is adopted to detect the strong absorption line of ethylene (C2H4) centered at 949.5 cm−1 by coupling the laser beam into a chalcogenide HC-ARF of 22 cm in length. Both direct absorption spectroscopy (DAS) and wavelength modulation spectroscopy (WMS) are performed in this study for comparison. At the integration time of 0.1 s, the noise equivalent absorption (NEA) coefficient is determined to be 4.7 × 10-5 cm−1 for DAS and 5.1 × 10-6 cm−1 for WMS, respectively. Based on the Allan-Werle deviation analysis, the NEA coefficient of WMS can be further improved to 4.0 × 10-7 cm−1 by using a longer integration time of 80 s. The combination of QCLs and chalcogenide glass HC-ARFs provides a promising platform for mid-infrared gas sensing applications.

Chalcogenide, Gas sensing, Hollow-core antiresonant fiber, Mid-infrared
0030-3992
Hu, Mengyuan
0114b993-3066-4817-894a-2c2f9db82e41
Ventura, Andrea
9da53cd5-53b3-4009-9147-7bc46672002c
Grigoleto Hayashi, Juliano
fe6db15b-ec75-4fd1-94f9-66efb217db21
Poletti, Francesco
9adcef99-5558-4644-96d7-ce24b5897491
Ren, Wei
3e97a9f7-5a31-4d68-8ec6-734f257cc684
Hu, Mengyuan
0114b993-3066-4817-894a-2c2f9db82e41
Ventura, Andrea
9da53cd5-53b3-4009-9147-7bc46672002c
Grigoleto Hayashi, Juliano
fe6db15b-ec75-4fd1-94f9-66efb217db21
Poletti, Francesco
9adcef99-5558-4644-96d7-ce24b5897491
Ren, Wei
3e97a9f7-5a31-4d68-8ec6-734f257cc684

Hu, Mengyuan, Ventura, Andrea, Grigoleto Hayashi, Juliano, Poletti, Francesco and Ren, Wei (2022) Mid-infrared absorption spectroscopy of ethylene at 10.5 µm using a chalcogenide hollow-core antiresonant fiber. Optics and Laser Technology, 158 (Part B), [108932]. (doi:10.1016/j.optlastec.2022.108932).

Record type: Article

Abstract

We demonstrate the mid-infrared absorption spectroscopy with a chalcogenide glass IG3 hollow-core antiresonant fiber (HC-ARF) for gas sensing at 10.5 µm. A continuous-wave quantum cascade laser (CW-QCL) is adopted to detect the strong absorption line of ethylene (C2H4) centered at 949.5 cm−1 by coupling the laser beam into a chalcogenide HC-ARF of 22 cm in length. Both direct absorption spectroscopy (DAS) and wavelength modulation spectroscopy (WMS) are performed in this study for comparison. At the integration time of 0.1 s, the noise equivalent absorption (NEA) coefficient is determined to be 4.7 × 10-5 cm−1 for DAS and 5.1 × 10-6 cm−1 for WMS, respectively. Based on the Allan-Werle deviation analysis, the NEA coefficient of WMS can be further improved to 4.0 × 10-7 cm−1 by using a longer integration time of 80 s. The combination of QCLs and chalcogenide glass HC-ARFs provides a promising platform for mid-infrared gas sensing applications.

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More information

Accepted/In Press date: 14 November 2022
e-pub ahead of print date: 24 November 2022
Published date: 24 November 2022
Additional Information: Funding Information: This work is supported by Shenzhen Science and Technology Innovation Committee (2021Szvup149), China; and partially supported by General Research Fund (14209220), Hong Kong SAR, China.
Keywords: Chalcogenide, Gas sensing, Hollow-core antiresonant fiber, Mid-infrared
Learn more about Zepler Institute for Photonics and Nanoelectronics research

Identifiers

Local EPrints ID: 481502
URI: http://eprints.soton.ac.uk/id/eprint/481502
DOI: doi:10.1016/j.optlastec.2022.108932
ISSN: 0030-3992
PURE UUID: e5e88e7a-3959-44fe-af9f-6a59ab1752e1
ORCID for Francesco Poletti: ORCID iD orcid.org/0000-0002-1000-3083

Catalogue record

Date deposited: 30 Aug 2023 16:41
Last modified: 18 Mar 2024 03:06

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Contributors

Author: Mengyuan Hu
Author: Andrea Ventura
Author: Juliano Grigoleto Hayashi
Author: Francesco Poletti ORCID iD
Author: Wei Ren

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