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Time-resolved continuous-filtering Vernier spectroscopy of H 2 O and OH radical in a flame

We use broadband near-infrared continuous-filtering Vernier spectroscopy (CF-VS) for time-resolved detection of H 2 O and OH radical in a premixed CH 4 /air flat flame. The CF-VS spectrometer is based on a femtosecond Er:fiber laser, an external cavity that contains the flame, and a detection system...

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Published in:	Optics express 2019-10, Vol.27 (21), p.29521
Main Authors:	Lu, Chuang, Vieira, Francisco Senna, Schmidt, Florian M., Foltynowicz, Aleksandra
Format:	Article
Language:	English
Subjects:	Acoustooptic modulators Cavity ring down spectroscopy Coupling efficiency Diffraction gratings Fourier transform spectroscopy Polarization maintaining fibers
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description	We use broadband near-infrared continuous-filtering Vernier spectroscopy (CF-VS) for time-resolved detection of H 2 O and OH radical in a premixed CH 4 /air flat flame. The CF-VS spectrometer is based on a femtosecond Er:fiber laser, an external cavity that contains the flame, and a detection system comprising a rotating diffraction grating and photodetectors. Spectra of H 2 O and OH radical around 1570 nm are continuously recorded with 6.6 GHz spectral resolution, 4.0 x 10 -7 cm -1 absorption sensitivity, and 25 ms time resolution, while the fuel-air equivalence ratio is periodically modulated with a square wave. The concentrations of the two analytes are retrieved with percent level precision by a fit of a Vernier model to each spectrum spanning 13 nm. The temporal profiles of both concentrations in each modulation cycle are repeatable and the steady-state concentration levels are in good agreement with predictions based on one-dimensional simulations of a static flat flame. The robust CF-VS spectrometer opens up for quantitative monitoring of multiple products of time-varying combustion processes with relatively simple data acquisition procedures.
doi_str_mv	10.1364/OE.27.029521
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subjects	Acoustooptic modulators Cavity ring down spectroscopy Coupling efficiency Diffraction gratings Fourier transform spectroscopy Polarization maintaining fibers
title	Time-resolved continuous-filtering Vernier spectroscopy of H 2 O and OH radical in a flame
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