Molecular beam infrared spectra of dimers formed from acetylene, methyl acetylene, and ethene as a function of source pressure and concentration

15 August 1985

journal article
Published by AIP Publishing in The Journal of Chemical Physics

Vol. 83 (4) , 1471-1477
https://doi.org/10.1063/1.449381

Abstract

Infrared spectra have been obtained for dimers formed from acetylene, methyl acetylene, and ethylene using a wide variety of free jet source conditions. An F-center laser was used to excite various C–H stretch fundamentals in the range 3000–3300 cm−1. Rotational structure was resolved in the spectra of both acetylene and methyl acetylene dimers when dilute mixtures of either gas in helium were expanded from high pressures. The spectrum of the ethylene dimer showed no such structure even when formed in very dilute mixtures. These results contradict previous suggestions that the vibrational relaxation lifetime is uniformly short for all polyatomic dimers.

Keywords

This publication has 24 references indexed in Scilit:

Rotational structure in the infrared spectra of carbon dioxide and nitrous oxide dimers
Chemical Physics Letters, 1984
Vibrational relaxation and predissociation in clusters of substituted ethenes
The Journal of Physical Chemistry, 1984
Scattering Analysis of Cluster Beams: Formation and Fragmentation of Small ${Ar}_{n}$ Clusters
Physical Review Letters, 1984
Infrared photodissociation of (Ar•OCS), (OCS)₂, and (OCS)₃ [carbon oxide sulfide van der Waals clusters with and without argon] in pulsed molecular beams: spectroscopy and dynamics
The Journal of Physical Chemistry, 1983
Rotational structure and vibrational predissociation in the HF stretching bands of the HF dimer
The Journal of Chemical Physics, 1983
Relaxation channels of vibrationally excited Van der Waals molecules
Faraday Discussions of the Chemical Society, 1982
Van Der Waals Molecules
Advances in Chemical Physics, 1981
Do highly excited reactive polyatomic molecules behave ergodically?
Accounts of Chemical Research, 1979
Intermolecular forces for hydrogen, nitrogen and acetylene
Chemical Physics Letters, 1977
Infrared Spectra of Crystalline C2H2, C2HD, and C2D2
The Journal of Chemical Physics, 1964