A modified LEPS potential energy surface for the F+H2 reaction

mass velocity flux contour maps are calculated from quasiclassical trajectory results for the F + H2 reaction at a relative translation energy of 3.0 kcal/mol. Results using a modified LEPS surface (T. Takayanagi and S. Sato, Chem. Phys. Letters 144 ( 1988) 191) and the number five surface of Mucker

Preliminary results of ab initio unrcstiictcd Hnrtree-Fock calculations for the potential enerfiy surfact for the reaction N' + Hz + Nil+ + H ae reported. For the collinear approach of Nf to Hz, the 3 - x surface has no activation barrier and has a shallow well (n. 1 eV). For perpendicular approach

A new potential energy surface (called 6SEC) obtained by iterative refinement of the previously published SSEC surface is presented. The new surface was obtained using accurate threedimensional quantum mechanical scattering calculations to test the effects of various modifications of the SSEC surfac

An ab initio MP4 study has been made of the potential energy surface of the H + OCS reaction. Minima and saddle points leading to formation of OH +CS or SH + CO were found. Stationary points were located using the 6-31 G# basis set at the ROHF and UMP2 levels of theory, with energy refinements at th

State-resolved integral and differential cross sections have been calculated for the F+ H2 ( v= 0 ) +HF+ H reaction by using the method of quasiclassical trajectories (QCT). The trajectories were run on the two latest versions (SSEC and 6SEC) of a partly ab initio potential energy surface. Dynamical