Relocking of Intrinsic Angular Momenta in Collisions of Diatoms with Ions: Capture of H(j = 0,1) by H

Overview

Journal J Chem Phys

Publisher American Institute of Physics

Specialties Biophysics
Chemistry

Date 2017 Jan 5

PMID 28049339

Citations 6

Authors

E I Dashevskaya

I Litvin

E E Nikitin

J Troe

Affiliations

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Abstract

Rate coefficients for capture of H(j = 0,1) by H are calculated in perturbed rotor approximation, i.e., at collision energies considerably lower than Bhc (where B denotes the rotational constant of H). The results are compared with the results from an axially nonadiabatic channel (ANC) approach, the latter providing a very good approximation from the low-temperature Bethe-Wigner to the high temperature Langevin limit. The classical ANC approximation performs satisfactorily at temperatures above 0.1 K. At 0.1 K, the rate coefficient for j=1 is about 25% higher than that for j = 0 while the latter is close to the Langevin rate coefficient. The Bethe-Wigner limit of the rate coefficient for j = 1 is about twice that for j = 0. The analysis of the relocking of the intrinsic angular momentum of H during the course of the collision illustrates the significance of relocking in capture dynamics in general.

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