The influence of vibrational and translational motion on the reaction dynamics of O(1D)+H2(1Sigma + g,v)
Abstract
The OH product state distribution from the reaction O(1D)+H2(v)→OH(v`,J`,Ω,Λ)+H was determined by laser-induced fluorescence (LIF) in the Δv=-3 band for v`=3 and 4 with resolution of the J`, Ω, and Λ sublevels. The rotational state population distribution is inverted strongly in v`=3, weaker in v`=4. There is a higher propensity for production of OH in the Π(A') Λ-sublevels. Vibrationally excited H2 was used for a part of the experiments. Excitation was achieved by stimulated Raman pumping (SRP). The population ratio of the vibrational states was determined to be P(v=3)/P(v=4)=3.5 for the reaction with H2(v=0) and 3.0 when there is H2(v=1) in the reaction chamber. Higher OH product states are populated than it would be expected from the mean available energy of the reaction. The translational energy of the reactants is transferred into OH rotation.
- Publication:
-
Journal of Chemical Physics
- Pub Date:
- May 1992
- DOI:
- 10.1063/1.462400
- Bibcode:
- 1992JChPh..96.7490M
- Keywords:
-
- Electron States;
- Hydrogen;
- Oxygen Atoms;
- Reaction Kinetics;
- Vibrational Spectra;
- Deuterium;
- Fine Structure;
- Hydrogen Atoms;
- Hydroxyl Radicals;
- Laser Induced Fluorescence;
- Atomic and Molecular Physics