Quantum reactive scattering using hyperspherical coordinates: Results for H+H2 and Cl+HCl

Accurate CC calculations of 3D quantum reactive scattering using hyperspherical (APH) coordinates are reported for both zero and non-zero total angular momentum J and for both symmetric (H + HZ) and unsymmetric (D + HZ) mass combinations. Accurate 3D reactive scattering calculations are now possible

A new numerical method for quantum collinear chemical reactions using Delves' coordinates is described. The method used R-matrix propagation along the radial coordinate and a Delves'-cartesian coordinate transformation for the R matrix in the asymptotic region. Application is made to the H + H2(n <

Calculations of quantum mechanical probabilities and rate constants for the collinear reaction Br + HC1 (o = 2, 3,4) BrH + C1, Br + HCI(o' < o) were performed using hyperspherical coordinates. Removal of vibrationaUy excited HC1 proceeds mainly by reaction to a nearly degenerate HBr state. Processes

We report converged quantum total integral reactive cross sections for the reaction F+H,+HFt H, for initial rotational states jl=O and I, using a time-dependent method. Our results are compared to classical results and to the experimental results of Nemnark et al. Strong quantum effects are found in