T. Laurent et al., ABSOLUTE RATE CONSTANTS, REACTIVE CROSS-SECTIONS AND ISOTOPIC BRANCHING RATIO FOR THE REACTION OF O(D-1) WITH HD, Chemical physics letters, 236(3), 1995, pp. 343-349
Using the laser photolysis vacuum-UV laser-induced fluorescence 'pump-
and-probe' technique, Doppler profiles of H and D atoms from the react
ion O(D-1)+ HD were measured under single-collision conditions, O(D-1)
atoms were generated by laser photolysis of N2O at 193 nm. With a cal
ibration method using HCl photolysis as a source of well defined H ato
m concentrations the following absolute rate constants k and absolute
reactive cross-sections cr have been determined: k = (1.3 +/- 0.3) X 1
0(-10) cm(3)s(-1) molec(-1) and sigma(R)(0.14 eV)=(4.0 +/- 0.9) Angstr
om(2) for the reaction channel O(D-1) + HD --> OD + H, and k = (1.0 +/
- 0.3) X 10(-10) cm(3) s(-1) molec(-1) and sigma(R)(0.14 eV) = (3.0 +/
- 0.7) Angstrom(2) for the reaction channel 0(1D) + HD --> OH + D. The
isotopic branching ratio for the reaction O(1D) + HD was measured dir
ectly to be Gamma(H/D) = 1.35 +/- 0.20. In addition, from the measured
H and D atom Doppler profiles the fraction f(T) of the available ener
gy released as translational energy was determined for the individual
product channels to be f(T)(OD + H) = 0.41 + 0.07 and f(T)(OH + D) = 0
.32 + 0.05.