Qcl-based dual-comb spectrometer for multi-species measurements at high temperatures and high pressures

Guangle Zhang; Raphael Horvath; Dapeng Liu; Markus Geiser; Aamir Farooq

doi:10.3390/s20123602

Qcl-based dual-comb spectrometer for multi-species measurements at high temperatures and high pressures

Guangle Zhang
, Raphael Horvath
, Dapeng Liu
, Markus Geiser
, Aamir Farooq

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

Rapid multi-species sensing is an overarching goal in time-resolved studies of chemical kinetics. Most current laser sources cannot achieve this goal due to their narrow spectral coverage and/or slow wavelength scanning. In this work, a novel mid-IR dual-comb spectrometer is utilized for chemical kinetic investigations. The spectrometer is based on two quantum cascade laser frequency combs and provides rapid (4 µs) measurements over a wide spectral range (~1175–1235 cm⁻¹ ). Here, the spectrometer was applied to make time-resolved absorption measurements of methane, acetone, propene, and propyne at high temperatures (>1000 K) and high pressures (>5 bar) in a shock tube. Such a spectrometer will be of high value in chemical kinetic studies of future fuels.

Original language	English (US)
Article number	3602
Pages (from-to)	1-14
Number of pages	14
Journal	Sensors (Switzerland)
Volume	20
Issue number	12
DOIs	https://doi.org/10.3390/s20123602
State	Published - Jun 2020
Externally published	Yes

Bibliographical note

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© MDPI AG. All rights reserved.

Keywords

Chemical kinetics
Mid-infrared absorption spectroscopy
Shock tube dual-frequency combs

Publisher link

10.3390/s20123602

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abstract = "Rapid multi-species sensing is an overarching goal in time-resolved studies of chemical kinetics. Most current laser sources cannot achieve this goal due to their narrow spectral coverage and/or slow wavelength scanning. In this work, a novel mid-IR dual-comb spectrometer is utilized for chemical kinetic investigations. The spectrometer is based on two quantum cascade laser frequency combs and provides rapid (4 µs) measurements over a wide spectral range (\textasciitilde{}1175–1235 cm−1 ). Here, the spectrometer was applied to make time-resolved absorption measurements of methane, acetone, propene, and propyne at high temperatures (>1000 K) and high pressures (>5 bar) in a shock tube. Such a spectrometer will be of high value in chemical kinetic studies of future fuels.",

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author = "Guangle Zhang and Raphael Horvath and Dapeng Liu and Markus Geiser and Aamir Farooq",

year = "2020",

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doi = "10.3390/s20123602",

language = "English (US)",

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TY - JOUR

T1 - Qcl-based dual-comb spectrometer for multi-species measurements at high temperatures and high pressures

AU - Zhang, Guangle

AU - Horvath, Raphael

AU - Liu, Dapeng

AU - Geiser, Markus

AU - Farooq, Aamir

PY - 2020/6

Y1 - 2020/6

N2 - Rapid multi-species sensing is an overarching goal in time-resolved studies of chemical kinetics. Most current laser sources cannot achieve this goal due to their narrow spectral coverage and/or slow wavelength scanning. In this work, a novel mid-IR dual-comb spectrometer is utilized for chemical kinetic investigations. The spectrometer is based on two quantum cascade laser frequency combs and provides rapid (4 µs) measurements over a wide spectral range (~1175–1235 cm−1 ). Here, the spectrometer was applied to make time-resolved absorption measurements of methane, acetone, propene, and propyne at high temperatures (>1000 K) and high pressures (>5 bar) in a shock tube. Such a spectrometer will be of high value in chemical kinetic studies of future fuels.

AB - Rapid multi-species sensing is an overarching goal in time-resolved studies of chemical kinetics. Most current laser sources cannot achieve this goal due to their narrow spectral coverage and/or slow wavelength scanning. In this work, a novel mid-IR dual-comb spectrometer is utilized for chemical kinetic investigations. The spectrometer is based on two quantum cascade laser frequency combs and provides rapid (4 µs) measurements over a wide spectral range (~1175–1235 cm−1 ). Here, the spectrometer was applied to make time-resolved absorption measurements of methane, acetone, propene, and propyne at high temperatures (>1000 K) and high pressures (>5 bar) in a shock tube. Such a spectrometer will be of high value in chemical kinetic studies of future fuels.

KW - Chemical kinetics

KW - Mid-infrared absorption spectroscopy

KW - Shock tube dual-frequency combs

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U2 - 10.3390/s20123602

DO - 10.3390/s20123602

M3 - Article

C2 - 32604869

AN - SCOPUS:85087103526

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VL - 20

SP - 1

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JO - Sensors (Switzerland)

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ER -

Qcl-based dual-comb spectrometer for multi-species measurements at high temperatures and high pressures

Abstract

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