Measurements of the branching ratios for the reaction of O(1D2) with N2O

Abstract

The relative rate constants for the reaction channels were determined using chemical‐ionization mass spectrometry to measure the products of Reaction (1). O(¹D₂) atoms were produced by the photodissociation of N₂O at wavelengths greater than 1950 Å. The measurements were carried out in mixtures of N₂O with helium added to remove the excess kinetic energy carried by the O(¹D₂). We find the ratio k_1a/k_1b is sensitive to the presence of helium increasing from a value of 0.68 in pure N₂O to a value of 0.80 with [He]/[N₂O]?10. In addition, at 300 K we find that (1a) and (1b) consititute the only significant channels for the reaction with (k_1c+k_1d+k_1e)/(k_1a+k_1b ) ?0.038. The ratio k_1a/k_1b is found to decrease slowly with increasing temperature over the range 170–434 K. These data can be fitted by the expression k_1a/k_1b= (0.72±0.11) +(21.6±7.0)/T.