Sensitivity enhancement of a cantilever-enhanced photo-acoustic spectroscopic sensor by an optical build-up cavity

Teemu Tomberg; Tuomas Hieta; Markku Vainio; Lauri Halonen

doi:10.1109/CLEOE-EQEC.2019.8873303

Sensitivity enhancement of a cantilever-enhanced photo-acoustic spectroscopic sensor by an optical build-up cavity

Teemu Tomberg, Tuomas Hieta, Markku Vainio, Lauri Halonen

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Sammanfattning

Laser photo-acoustic spectroscopy (LPAS) is a highly sensitive and selective method for trace gas analysis. One of the most advanced LPAS techniques is cantilever-enhanced photo-acoustic spectroscopy (CEPAS), which can reach down to low-ppt and sub-ppt level trace gas detection sensitivities with high power lasers [1,2]. The selection of wavelengths and tunability of high power narrow linewidth lasers is, however, limited. They are also rarely suitable for field deployable analysers, which would require a small and robust form factor. An alternative approach, potentially overcoming these weaknesses, is to build up the optical power of a standard distributed feedback diode laser (DFB) or a quantum cascade laser in an external optical cavity [3,4]. © 2019 IEEE.

Originalspråk	engelska
Titel på värdpublikation	2019 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC)
Antal sidor	1
Utgivningsort	Piscataway, NJ
Förlag	IEEE
Utgivningsdatum	2019
ISBN (elektroniskt)	978-1-7281-0469-0
DOI	https://doi.org/10.1109/CLEOE-EQEC.2019.8873303
Status	Publicerad - 2019
MoE-publikationstyp	A4 Artikel i en konferenspublikation
Evenemang	The 2019 Conference on Lasers & Electro-Optics / Europe and the European Quantum Electronics Conference (CLEO®/Europe-EQEC) - München, Tyskland Varaktighet: 23 juni 2019 → 27 juni 2019

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116 Kemi

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10.1109/CLEOE-EQEC.2019.8873303

Tomberg-CLEO-Europe-EQEC-2019_FINALAccepterat manuskript från författare, 196 KB

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title = "Sensitivity enhancement of a cantilever-enhanced photo-acoustic spectroscopic sensor by an optical build-up cavity",

abstract = "Laser photo-acoustic spectroscopy (LPAS) is a highly sensitive and selective method for trace gas analysis. One of the most advanced LPAS techniques is cantilever-enhanced photo-acoustic spectroscopy (CEPAS), which can reach down to low-ppt and sub-ppt level trace gas detection sensitivities with high power lasers [1,2]. The selection of wavelengths and tunability of high power narrow linewidth lasers is, however, limited. They are also rarely suitable for field deployable analysers, which would require a small and robust form factor. An alternative approach, potentially overcoming these weaknesses, is to build up the optical power of a standard distributed feedback diode laser (DFB) or a quantum cascade laser in an external optical cavity [3,4]. {\textcopyright} 2019 IEEE.",

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author = "Teemu Tomberg and Tuomas Hieta and Markku Vainio and Lauri Halonen",

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note = "The 2019 Conference on Lasers & Electro-Optics / Europe and the European Quantum Electronics Conference (CLEO{\textregistered}/Europe-EQEC), CLEO{\textregistered}/Europe-EQEC ; Conference date: 23-06-2019 Through 27-06-2019",

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Tomberg, T, Hieta, T, Vainio, M & Halonen, L 2019, Sensitivity enhancement of a cantilever-enhanced photo-acoustic spectroscopic sensor by an optical build-up cavity. i 2019 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC). IEEE, Piscataway, NJ, The 2019 Conference on Lasers & Electro-Optics / Europe and the European Quantum Electronics Conference (CLEO®/Europe-EQEC), München, Tyskland, 23/06/2019. https://doi.org/10.1109/CLEOE-EQEC.2019.8873303

Sensitivity enhancement of a cantilever-enhanced photo-acoustic spectroscopic sensor by an optical build-up cavity. / Tomberg, Teemu; Hieta, Tuomas; Vainio, Markku et al.

2019 Conference on Lasers and Electro-Optics Europe & European Quantum Electronics Conference (CLEO/Europe-EQEC). Piscataway, NJ : IEEE, 2019.

Forskningsoutput: Kapitel i bok/rapport/konferenshandling › Konferensbidrag › Vetenskaplig › Peer review

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N2 - Laser photo-acoustic spectroscopy (LPAS) is a highly sensitive and selective method for trace gas analysis. One of the most advanced LPAS techniques is cantilever-enhanced photo-acoustic spectroscopy (CEPAS), which can reach down to low-ppt and sub-ppt level trace gas detection sensitivities with high power lasers [1,2]. The selection of wavelengths and tunability of high power narrow linewidth lasers is, however, limited. They are also rarely suitable for field deployable analysers, which would require a small and robust form factor. An alternative approach, potentially overcoming these weaknesses, is to build up the optical power of a standard distributed feedback diode laser (DFB) or a quantum cascade laser in an external optical cavity [3,4]. © 2019 IEEE.

AB - Laser photo-acoustic spectroscopy (LPAS) is a highly sensitive and selective method for trace gas analysis. One of the most advanced LPAS techniques is cantilever-enhanced photo-acoustic spectroscopy (CEPAS), which can reach down to low-ppt and sub-ppt level trace gas detection sensitivities with high power lasers [1,2]. The selection of wavelengths and tunability of high power narrow linewidth lasers is, however, limited. They are also rarely suitable for field deployable analysers, which would require a small and robust form factor. An alternative approach, potentially overcoming these weaknesses, is to build up the optical power of a standard distributed feedback diode laser (DFB) or a quantum cascade laser in an external optical cavity [3,4]. © 2019 IEEE.

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