Production of atomic oxygen following flash photolysis of ClONO2

The flash photolysis resonance fluorescencc technique has been used to measure the rrtte constant for the rcaction of O(3P) atoms with CION at 10 torr total pressure over the temperature range 225-273 K. The values obtained can be fit to the Arrhenius equation kr = (1.87 f 1.29) X 10-12 exp[ -(692 i

The reaction of Cl atoms with chlorine nitrate has been reinvestigated by flash photolysis resonance fluorcsccnce over the temperature range 220-296 I;. The new results can be tit to the Arrhenius expression kr = 7.3 X 10-r\* esp(165/7I cm3 molecule-' s-l, in good agreement with another recent study

Cblorme nitrate, CIONO,. was photolyzcd at 249 nm by a 10 ns pulse from an cwmcr laser, and the prrmsry product NO3 was followed by tunable dye-hscr absorpuon at 662 nm. With AI or Ar plusCH4 as cmncr gases bctwccn 20 and 100 Torr, the primary quantum ylcld for NO3 was 0 55 (-0.1 IO +0.3).

Flash photolysis of ammonia in the presence of oxygen UTIS studied using the intmcwity Iaser spectroscopy technique. The reaction NH2 + 02 was demonstrated to be of no importance and a value of k6 < 1.5 X 10-t' cm3/molecule s was estimated-Accelerating NH~ decay with oxygen addition is due to :he re

Using the technique of flash photolysis-resonance fluorescence, absolute rate constants have been measured for the reaction H + 0 2 + M 4 HOz + M over a temperature range of 220-360°K. Over this temperature range, the data could be fit to an Arrhenius expression of the following form: The units for