Quantum reaction dynamics of the C(1D) + H2(D2) → CH(D) + H(D) on a new potential energy surface

PRODUCT ENERGETICS OF THE REACTION C('D) + H, --f CH + H The product CH radic;li of the subject reaction NYIS rnonitorod by hscr-induced ftuorcsccnce following vxuuln ultra-vi&l plwtolysis of C302. As cspccted from consideration of reaction cnerpcIics, only the ground vibrntionnl Icvcl was obsxwd. T

The effect on the thermal rate constant and the differential cross-sections of varying the dimensionality of quantum scattering calculations of a polyatomic reaction is investigated. The rotating bond approximation (RBA, 3D) and a rotating line approximation (RLA, 2D) are used for the CH, + OH + CH,

## Quasiclassical trajectory calculations have been carried out for the reaction 0( 'D) +HD( 'Z\* )4OD/OH (%I) +H/D('S) using a two-valued potential energy surface derived by Murrell, Carter, Mills and Guest. The OD/OH branching ratio on this multivalued surface at 300 K is close to 2, and experim

A time-dependent quantum dynamics calculation is reported for the O(nD)+ H 2 reaction in three dimensions. Total (final state summed) reaction probabilities, cross sections and rate constants for the title reaction are presented in this study using the potential energy surface of Schinke and Lester

Quantum mechanically accurate calculations are carried out for the Mu+ Hz and Mu + Dz reactions using the hyperspherical coordinate approach. The results for the rate constant are in good agreement with experiment. Comparisons are also made with other more approximate calculations. The effect of ini