Computation of cross sections for the F+H2(v=0,j=0) → FH(v′j)+H reaction by the hyperspherical method

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

Integral and differential state-resolved cross sections have been calculated by the method of quasiclassical trajectories for the H t D,+HD+D reaction in the range of initial conditions of interest to recent experiments. When possible, the results are compared to exact quantum-mechanical calculation

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

Differentialandtotal state-to-state~sssectionsfoortheD+H,(u=O,j=O-3)~HD(u',j')+Hreactioninthe0.35-1.10eV collision energy range, have been calculated on the UTH surface using the QCT method. The results are commented on and compared to recent quantum mechanical calculations and to experimental measu