Mp. Demiranda et al., ONE-ATOM CAGE EFFECT IN I2-AR COMPLEXES - CAN IT BE EXPLAINED BY LINEAR GROUND-STATE ISOMERS, Chemical physics, 187(1-2), 1994, pp. 185-194
We have performed three-dimensional quasiclassical trajectory calculat
ions to study the fragmentation and recombination dynamics (one-atom c
age effect) of the I2-Ar van der Waals complex following excitation ab
ove the dissociation limit of the I2(B) electronic state. In particula
r, we have studied the influence of the ground electronic state equili
brium geometry on the recombination probabilty. For this, trajectories
have been calculated using two different sets of initial conditions c
orresponding to linear and T-shaped ground state isomers. The potentia
l energy surface for the I2(B) excited state was taken as a sum of pai
rwise interactions with semiempirical parameters taken from the litera
ture. It was found that, although the initially linear isomers have (a
s expected) a higher probability to recombine than the T-shaped ones,
the amount of vibrational to translational energy transfer is still fa
r too small as compared to the experimental findings. It is concluded
that a pure ballistic mechanism for the one-atom cage effect in I2-Ar
is not consistent with experiments.