Abstract
We report first measurements of time-resolved absolute CO number densities and rotational temperatures in a non-thermal CO2 plasma environment using TALIF with a nanosecond pulsed laser. Two-photon excitation spectra from the (v′ = 0) ← (v″ = 0) Q-branch are recorded and fitted to extract rotational temperatures. Absolute number densities are determined from the frequency-integrated excitation spectrum. The plasma under investigation is a pulsed glow discharge operated at a frequency of 60 Hz with an plasma-on time of 5 ms per plasma cycle, 50 mA plasma current and a pressure of 6.67 mbar. CO number densities range from m−3 to m−3, while rotational temperatures range from 370 ± 40 K to 700 ± 70 K at the beginning and end of the plasma-on phase, respectively. Our results show fair agreement with literature data.
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