Abstract.
Absolute number densities of the CH radical were determined in a partially premixed methane/air flame (equivalence ratio was 1.36) at atmospheric pressure by exciting a predissociating level via the CH B–X(1,0) transition using a quasi-linear laser-induced fluorescence scheme. The peak number density was (1.0±0.4)×1013 cm-3 or 2.4±1 ppm at 1900 K, with a flame-front width of 250 μm (FWHM). Rotational energy transfer must be considered for correct laser-induced fluorescence signal interpretation. Competition between optical pumping and rotational relaxation in both excited and ground states produces a signal that varies almost linearly with laser pulse energy even for large pumping rates. For these conditions, the population of the initial ground-state rotational level is depleted by optical pumping, and rotational energy transfer collisions rapidly repopulate the level during the laser pulse. Deviations from linear behavior are less than 20%. The effects of spatial resolution and polarization of the fluorescence on the absolute measurements are also discussed.
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Received: 27 March 2002 / Revised version: 22 August 2002 / Published online: 15 November 2002
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ID="*"Present address: Lam Research Corporation, Fremont, CA 94538, USA
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ID="**"Present address: Mechanical Engineering, Eindhoven University of Technology, 5600 MB Eindhoven, The Netherlands
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ID="***"Present address: Mechanical Engineering Dept., Stanford University, Stanford CA 94305, USA
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ID="****"Corresponding author. Fax: +1-650/859-6196, E-mail: smith@mplvax.sri.com
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Luque, J., Klein-Douwel, R., Jeffries, J. et al. Quantitative laser-induced fluorescence of CH in atmospheric pressure flames . Appl Phys B 75, 779–790 (2002). https://doi.org/10.1007/s00340-002-1038-x
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DOI: https://doi.org/10.1007/s00340-002-1038-x