Differential cross sections for state-selected reactions in the H2+ + H2 system

## Appro\unate d~flizrcntwl cross sccl~ons are c&xl&d (using collmcar exact quantum reaction S matrices with tnnslttun SISIU theory) for the r+H2(u = 0) -H~(u' = 2), H~(u' = 3) + H rcact~ons at translational cnergics of 1.9 and 2.9 kcal/ molt. I-or the former rcacl~on the cross scctlon is backward

The nascent state distributions of OH produced in the reaction H+H20+0H+H2 were probed by fast atom-laser-induced fluorescence experiments. Translationally hot H atoms were formed by photolysis of HI at 250 and 270 nm leading to H+HrO c.m. collision energies E of 176 and 143 kJ/mol. With a calibrat

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

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