Exact quantum mechanical transition probabilities for the collinear reaction: H + F2 (υ = 0) → HF(υ′ ⩽ 11) + F

Quantum mechanica1 transition probabïlities have been calculated for the collinear reaction hfu + F~(u = 0) -+ MuF(u' G 3) + F by the state pa\*& sum method. The "best" extended LEPS surface no. 11 of Jonxthan et al. for the tl + F2 reaction bas been used. Approximately 40% of the available reaction

The classical (CSC), prirnitive (PSC), md uniform (USC) semi-Jassical expressions for reactive transition probabilities of Miller and co-workers have been used to obtain reaction probabilities for the collinear H + Hz exchange reaction. Comparisons with exact quantum results for the 0 4 0 transition

in final form 17 Jzmuxy 19S3 \'elocrf~ -scatterms angle intenslty mqs for the 1: + Il,(u = O;] = 0) -1'11( r: = 1.3; j') + II reaction are predicted from ~1rr~ntur"-nrcclranic~l I\_-consening calculations. The extent of the s/xi/r in the angular distribution from barksntteriq at 1-S hc.d,!molr 10 si

Integral reactive quantum-mechanIcal cross secfions and product vibrational dlstriiuhons are presented for the r + Hz system. The calculations were made within the mfmite order sudden approximahon (IOSA) formahsm and the results are compared wllh expenmental data and results obtamcd with other treat