Production of vibrationally excited OH in chemiluminescent ozone-olefin reactions

Emission from vibrationally excited OH molecules (Meinel bands) has been observed in chemiluminescent gas-phase reactions of ozone with myrcene, Ir-phellandrene, a-pinene, limonene and linallol. In addition emission from HCHO('Az) and methylglyoxal(3A,) has also been identified in reactions with myr

11i Chcrnisf~~. L'ln%ws& of Colorado\_ Boulder. Colorado SO309. USA \'ihr;ltional ctl~mi1unlinesccnc-c is dercctcd from the reaction N\*("P) i-Oz(S"Q in a flowing -after~lo\v. The atomtrnnsfcr product. NO+(X ' 1.+. u). displays a bimodal vibrationaldistribution spanning the nnge v = l-14. Excited N(

Measurements of the enhancement of CbrationalIyexcited 02('Zi) formation by added 02 in the UV flashphotolysis of 03'indicate that 02(3Z$v\*r,~ is formed in the deactitition cf O('D) by 02 with an efficiency of 5 0.3. These measurements are also consistent with the formation of 02(3~-) g y",,-, in t

## Abstract A fast discharge flow apparatus equipped for EPR detection of radicals has been used to investigate the reaction O + HBr → OH + Br. At 295°K, measurements showed that more than 97% of all OH produced in this reaction was formed initially in its first vibrationally excited state. Rate co

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