SACM/CT Study of Product Energy Distributions in the Dissociation of n-Propylbenzene Cations

Abstract

The distribution of translational, rotational, and vibrational energy in the fragments (benzylium ions and ethyl radicals) of the dissociation of n-proplybenzene cations has been determined by statistical adiabatic channel model/classical trajectory (SACM/CT) calculations. The reaction was treated by CT calculations of capture processes for transitional modes, starting with specified fragment energies. A short-range valence/long range ion-induced dipole potential model for the transitional modes was employed. The derived distributions approach the results from phase space theory (PST) at small energies and angular momenta. At larger energies and angular momenta, the shapes of the distribution factions remain similar to those from PST; however, the average translational, rotational, and vibrational energies of the fragments increasingly differ from PST predictions. The present results are consistent with separate SACM/CT calculations on the same potential of specific rate constants and thermally averaged rate constants of the dissociation/recombination reaction.

Document Details

Document Type

Technical Report

Publication Date

Jan 01, 2005

Accession Number

ADA442818

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