Collision induced relaxation of an electronically excited molecule: Evidence for low energy resonance enhanced vibrational deactivation
- 15 May 1980
- journal article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 72 (10), 5733-5743
- https://doi.org/10.1063/1.438993
Abstract
The paper reports a study of collision induced vibrational relaxation of electronically excited iodine. A novel technique is used to probe the energy dependence of the collision cross section, namely, variation in the position of illumination along the axis of a supersonic free jet. Experimental results are reported which indicate that the relaxation induced by collisions with extremely small relative kinetic energy is very efficient. The evidence available is consistent with a model in which the vibrational deactivation is enhanced by orbiting resonances or rotational resonances of the colliding pair.Keywords
This publication has 13 references indexed in Scilit:
- 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
- Vibrational and rotational relaxation of iodine in seeded supersonic beamsThe Journal of Physical Chemistry, 1979
- Low energy collisional relaxation of I*2 in He:Evidence for resonance enhanced vibrational deactivationThe Journal of Chemical Physics, 1979
- Collision induced intramolecular vibrational energy transfer in 1B2 anilineThe Journal of Chemical Physics, 1979
- Spectrally narrow pulsed dye laser without beam expanderApplied Optics, 1978
- Mode-to-mode vibrational energy flow in S1 benzeneChemical Physics, 1978
- Molecular optical spectroscopy with supersonic beams and jetsAccounts of Chemical Research, 1977
- Translational nonequilibrium in free jet expansionsPhysics of Fluids, 1974
- Parameterizing diatomic spectra: “Best” spectroscopic constants for the I2B 3 X transitionJournal of Molecular Spectroscopy, 1974
- Rotational Relaxation of Molecular NitrogenThe Journal of Chemical Physics, 1967