Mid-infrared photoacoustic gas monitoring driven by a gas-filled hollow-core fiber laser
Development of novel mid-infrared (MIR) lasers could ultimately boost emerging detection technologies towards innovative spectroscopic and imaging solutions. Photoacoustic (PA) modality has been heralded for years as one of the most powerful detection tools enabling high signal-to-noise ratio analys...
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Published in | Scientific reports Vol. 11; no. 1; p. 3512 |
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Main Authors | , , , , , , |
Format | Journal Article |
Language | English |
Published |
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10.02.2021
Nature Publishing Group UK Nature Portfolio |
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Abstract | Development of novel mid-infrared (MIR) lasers could ultimately boost emerging detection technologies towards innovative spectroscopic and imaging solutions. Photoacoustic (PA) modality has been heralded for years as one of the most powerful detection tools enabling high signal-to-noise ratio analysis. Here, we demonstrate a novel, compact and sensitive MIR-PA system for carbon dioxide (CO
) monitoring at its strongest absorption band by combining a gas-filled fiber laser and PA technology. Specifically, the PA signals were excited by a custom-made hydrogen (H
) based MIR Raman fiber laser source with a pulse energy of ⁓ 18 μJ, quantum efficiency of ⁓ 80% and peak power of ⁓ 3.9 kW. A CO
detection limit of 605 ppbv was attained from the Allan deviation. This work constitutes an alternative method for advanced high-sensitivity gas detection. |
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AbstractList | Abstract
Development of novel mid-infrared (MIR) lasers could ultimately boost emerging detection technologies towards innovative spectroscopic and imaging solutions. Photoacoustic (PA) modality has been heralded for years as one of the most powerful detection tools enabling high signal-to-noise ratio analysis. Here, we demonstrate a novel, compact and sensitive MIR-PA system for carbon dioxide (CO
2
) monitoring at its strongest absorption band by combining a gas-filled fiber laser and PA technology. Specifically, the PA signals were excited by a custom-made hydrogen (H
2
) based MIR Raman fiber laser source with a pulse energy of ⁓ 18 μJ, quantum efficiency of ⁓ 80% and peak power of ⁓ 3.9 kW. A CO
2
detection limit of 605 ppbv was attained from the Allan deviation. This work constitutes an alternative method for advanced high-sensitivity gas detection. Abstract Development of novel mid-infrared (MIR) lasers could ultimately boost emerging detection technologies towards innovative spectroscopic and imaging solutions. Photoacoustic (PA) modality has been heralded for years as one of the most powerful detection tools enabling high signal-to-noise ratio analysis. Here, we demonstrate a novel, compact and sensitive MIR-PA system for carbon dioxide (CO2) monitoring at its strongest absorption band by combining a gas-filled fiber laser and PA technology. Specifically, the PA signals were excited by a custom-made hydrogen (H2) based MIR Raman fiber laser source with a pulse energy of ⁓ 18 μJ, quantum efficiency of ⁓ 80% and peak power of ⁓ 3.9 kW. A CO2 detection limit of 605 ppbv was attained from the Allan deviation. This work constitutes an alternative method for advanced high-sensitivity gas detection. Development of novel mid-infrared (MIR) lasers could ultimately boost emerging detection technologies towards innovative spectroscopic and imaging solutions. Photoacoustic (PA) modality has been heralded for years as one of the most powerful detection tools enabling high signal-to-noise ratio analysis. Here, we demonstrate a novel, compact and sensitive MIR-PA system for carbon dioxide (CO ) monitoring at its strongest absorption band by combining a gas-filled fiber laser and PA technology. Specifically, the PA signals were excited by a custom-made hydrogen (H ) based MIR Raman fiber laser source with a pulse energy of ⁓ 18 μJ, quantum efficiency of ⁓ 80% and peak power of ⁓ 3.9 kW. A CO detection limit of 605 ppbv was attained from the Allan deviation. This work constitutes an alternative method for advanced high-sensitivity gas detection. Development of novel mid-infrared (MIR) lasers could ultimately boost emerging detection technologies towards innovative spectroscopic and imaging solutions. Photoacoustic (PA) modality has been heralded for years as one of the most powerful detection tools enabling high signal-to-noise ratio analysis. Here, we demonstrate a novel, compact and sensitive MIR-PA system for carbon dioxide (CO2) monitoring at its strongest absorption band by combining a gas-filled fiber laser and PA technology. Specifically, the PA signals were excited by a custom-made hydrogen (H2) based MIR Raman fiber laser source with a pulse energy of ⁓ 18 μJ, quantum efficiency of ⁓ 80% and peak power of ⁓ 3.9 kW. A CO2 detection limit of 605 ppbv was attained from the Allan deviation. This work constitutes an alternative method for advanced high-sensitivity gas detection. Development of novel mid-infrared (MIR) lasers could ultimately boost emerging detection technologies towards innovative spectroscopic and imaging solutions. Photoacoustic (PA) modality has been heralded for years as one of the most powerful detection tools enabling high signal-to-noise ratio analysis. Here, we demonstrate a novel, compact and sensitive MIR-PA system for carbon dioxide (CO 2 ) monitoring at its strongest absorption band by combining a gas-filled fiber laser and PA technology. Specifically, the PA signals were excited by a custom-made hydrogen (H 2 ) based MIR Raman fiber laser source with a pulse energy of ⁓ 18 μJ, quantum efficiency of ⁓ 80% and peak power of ⁓ 3.9 kW. A CO 2 detection limit of 605 ppbv was attained from the Allan deviation. This work constitutes an alternative method for advanced high-sensitivity gas detection. |
ArticleNumber | 3512 |
Author | Feng, Yuyang Markos, Christos Adamu, Abubakar I Wang, Yazhou Dasa, Manoj K Antonio-Lopez, J E Amezcua-Correa, Rodrigo |
Author_xml | – sequence: 1 givenname: Yazhou surname: Wang fullname: Wang, Yazhou email: yazwang@fotonik.dtu.dk organization: DTU Fotonik, Department of Photonics Engineering, Technical University of Denmark, 2800, Kgs. Lyngby, Denmark. yazwang@fotonik.dtu.dk – sequence: 2 givenname: Yuyang surname: Feng fullname: Feng, Yuyang organization: COPAC A/S, Diplomvej 381, 2800, Kongens Lyngby, Denmark – sequence: 3 givenname: Abubakar I surname: Adamu fullname: Adamu, Abubakar I organization: DTU Fotonik, Department of Photonics Engineering, Technical University of Denmark, 2800, Kgs. Lyngby, Denmark – sequence: 4 givenname: Manoj K surname: Dasa fullname: Dasa, Manoj K organization: DTU Fotonik, Department of Photonics Engineering, Technical University of Denmark, 2800, Kgs. Lyngby, Denmark – sequence: 5 givenname: J E surname: Antonio-Lopez fullname: Antonio-Lopez, J E organization: CREOL, The College of Optics and Photonics, University of Central Florida, Orlando, FL, 32816, USA – sequence: 6 givenname: Rodrigo surname: Amezcua-Correa fullname: Amezcua-Correa, Rodrigo organization: CREOL, The College of Optics and Photonics, University of Central Florida, Orlando, FL, 32816, USA – sequence: 7 givenname: Christos surname: Markos fullname: Markos, Christos organization: NORBLIS IVS, Virumgade 35D, 2830, Virum, Denmark |
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CitedBy_id | crossref_primary_10_3390_photonics10050525 crossref_primary_10_3788_AOS230573 crossref_primary_10_1002_lpor_202400531 crossref_primary_10_3390_s21072336 crossref_primary_10_1038_s41377_024_01459_5 crossref_primary_10_1016_j_infrared_2022_104159 crossref_primary_10_3390_su16083219 crossref_primary_10_1016_j_rinp_2024_107523 crossref_primary_10_1016_j_rinp_2024_107559 crossref_primary_10_1364_OL_524464 crossref_primary_10_3103_S1068335622130048 |
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Title | Mid-infrared photoacoustic gas monitoring driven by a gas-filled hollow-core fiber laser |
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