Formation of vibrationally excited OH radicals in the O (1D) + H2S reaction

The energy disu-ibulion or nascent OH('n. v. J) produced in the reaclien o. r O('D) wilh H,S has been measured by leser-lnduccd fluorescence. The rolaGanal distributions in u"= 0 and U" -1 are Bollunannran with lemperalure paramewrs T; \_,-23C+O+IOOKand7;-\_,= 2650\*150 K A population ratio N(u"=l)/

A lower limit to t?re OH(X a 11) vibrational escitation produced by the reaction O(r D) + Ha has been obsewed using a low-pressure infrared chemilumiuescence anoaratus. The O(' D) was generated by laser photolysis of OS\_ The measured \_\* OH(v') vibrational distribution is inverted; it peaks at U'

Experiments of two kinds have been performed to determine the vibronic state distribution in NCO(R 'II) produced in the radical-radical reaction CN t02-+NC0 t 0; A& -292 6 kJ mol-'. In both experiments, CN radicals are produced by photolysis of NCNO using a frequency-doubled Nd:YAG laser. NC0 radica

The product hydroxyl radical arising from the reaction 0( 1D 2)-t-H 2 ---, OH + H was detected by LIF following excitation of the off-diagonal transition OH(A2E +, v' = 1 6-X 2II, v" = 2) in the region 348-357 nm. The rotational population distribution in v" = 2 appears to be inverted and quite simi

## Abstract The reaction of O(^1^__D__) with CH~4~ was studied to determine the efficiency of H~2~ production in a direct process, and it was found to be 0.11 ± 0.02. Thus the two channels which account for all of the reaction between O(^1^__D__) and CH~4~ in the gas phase are equation image