Energy dispersion and relaxation in propynal using laser IR/visible double resonance

M.L. Lesiecki,G.R. Smith,J.A. Stewart,W.A. Guillory; M.L. Lesiecki; G.R. Smith; J.A. Stewart; W.A. Guillory

Energy dispersion and relaxation in propynal using laser IR/visible double resonance

Clicks: 182

ID: 270112

1980

The dynamics of energy dispersion in propynal has been studied over the pressure range of 5 to 500 mtorr following excitation by a TEA CO2 laser below the dissociation threshold. Wavelength resolved spectra, using the dye laser-induced fluorescence technique, are used to characterize the vibrational levels that are involved in the various energy transfer processes, while time-resolved spectra are used to determine the corresponding rates. The rate constants are extrapolated to zero pressure to obtain the regime of collisionless intramolecular relaxation times. Mechanisms of energy dispersion involving each of the probed vibrational levels (v = 0), ν6(v = 1), ν9(v = 1), and ν4(v = 1)) are discussed.

Reference Key	guillory1980journalenergy Use this key to autocite in the manuscript while using SciMatic Manuscript Manager or Thesis Manager
Authors	M.L. Lesiecki,G.R. Smith,J.A. Stewart,W.A. Guillory;M.L. Lesiecki;G.R. Smith;J.A. Stewart;W.A. Guillory;
Journal	journal of molecular structure
Year	1980
DOI	10.1016/0022-2860(80)85077-0
URL	https://sciprofiles.com/publication/view/9a5834bc71ecfb69468479f6cd47332f https://doi.org/10.1016/0022-2860(80)85077-0
Keywords	energy transfer rate constant carbon dioxide laser induced fluorescence excited states energy levels relaxation time

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