Abstract
The product vibrational state distribution for the reaction N(4S)+O2→NO(2Π,v)+O has been measured using saturated multiphoton ionization spectroscopy to determine NO electronic ground-state distributions. The fraction of the reaction exothermicity appearing in product vibration is 〈 f v〉=0.34; however, the even vibrational levels (v=0,2,4,6) are relatively overpopulated with respect to the odd vibrational levels (v=1,3,5). It is not possible to obtain a good linear-surprisal fit to all the data, but the even and odd subsets fit quite well to individual surprisal plots. The results are compared with previous measurements, including a reanalysis of laser-excited fluorescence data corrected for electronic transition moment and Franck–Condon factor variations. Collisional relaxation is observed at high O2 pressures for NO levels v=4 through 7, and is fit with a phenomenological relaxation model.
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