Hyperspherical close-coupling calculation of integral cross sections for the reaction H+H2→H2+H

Accurate reactive scattering calculations of integral cross sections for the reaction F+H, were carried out by utilizing the latest basis contraction techniques developed for the S matrix Kohn variational method. Convergence with respect to increasing the number of K states (K,,,,) for high J calcul

A close-coupling calculation of integral cross sections for the reaction F + Hz (u= 0, j= 0) +FH ( v'f ) + H has been performed in the threshold energy range using hyperspherical coordinates, The convergence of partial reaction probabilities with respect to a,, the maximum magnitude of the total ang

Analytic expressions fitted to cross section data on collisions of H + , H + 2 , H + 3 , H, H 2 , and H -with H 2 are given. The data used are those recommended by Phelps [J. Chem. Phys. Ref. Data 19, 653 (1990)] and additional experimental data, when available, up to a projectile energy of about 10

Product angular and velocity distributions for vibrationally state-selected ion-neutral reactions are measured wrth a new technique that uses resonantly enhanced multiphoton ionization and impulsive acceleration of reactant ions to achieve crossed-beam scattermg conditions in a single molecular beam