The time evolution of the velocity distribution of hydrogen atoms in a bath gas
- 15 December 1989
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 91 (12) , 7861-7871
- https://doi.org/10.1063/1.457253
Abstract
In this work we probe an ensemble of energetic hydrogen atoms dilutely dispersed in a bath gas which is at thermal equilibrium. A recently developed laser-induced fluorescence technique allows a quantitative measurement on a nanosecond time scale of the shape of a Doppler-broadened absorption line of hydrogen atoms. A nonequilibrium distribution of H atoms is generated by photodissociation, and the line shape is then measured at a flxed time delay as a function of buffer gas pressure. The buffer gases used are He, Ar, Kr, Xe, O2, and N2. A technique perfected by Shizgal is used to integrate the linearized Boltzmann equation for a hard-sphere potential. The experimental results for the decay of the kinetic energy are fit with cross sections of 10±2, 9±2, 12±2, and 16(+8−4) Å2 for He, Ar, Kr, and Xe, respectively.Keywords
This publication has 12 references indexed in Scilit:
- Isotopic variants of the atomic hydrogen + hydrogen reaction. 1. Total reaction cross sections of the atomic hydrogen + deuterium and atomic hydrogen + hydrogen deuteride reactions as a function of relative energyThe Journal of Physical Chemistry, 1987
- Kinetic and internal energy distributions via velocity-aligned Doppler spectroscopy: The 193 nm photodissociation of H2S and HBrThe Journal of Chemical Physics, 1987
- Eigenvalues of the boltzmann collision operator for binary gases: Relaxation of anisotropic distributionsChemical Physics, 1983
- Photofragmentation of H2S in the first continuumChemical Physics, 1983
- A Gaussian quadrature procedure for use in the solution of the Boltzmann equation and related problemsJournal of Computational Physics, 1981
- Eigenvalues of the Boltzmann collision operator for binary gases: Mass dependenceChemical Physics, 1981
- Two-Body, Spherical, Atom-Atom, and Atom-Molecule Interaction EnergiesAnnual Review of Physical Chemistry, 1980
- Molecular beam scattering studies of orbiting resonances and the determination of van der Waals potentials for H–Ne, Ar, Kr, and Xe and for H2–Ar, Kr, and XeThe Journal of Chemical Physics, 1979
- Linear Hard-Sphere Gas: Variational Eigenvalue Spectra of the Energy KernelThe Journal of Chemical Physics, 1970
- On the Angular Distribution in Nuclear Reactions and Coincidence MeasurementsPhysical Review B, 1948