Measured Transition Probabilities for the Schumann-Runge System of Oxygen

1 March 1960

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

Vol. 32 (3) , 758-766
https://doi.org/10.1063/1.1730796

Abstract

Transition probabilities for the Schumann‐Runge system of O₂ have been measured in absorption in the wavelength region 2650–3900 A. Oxygen was heated in a shock tube to temperatures up to 4500°K, thereby populating high vibrational and rotational levels. Absorption spectra were photographed using a high‐speed flash lamp and a large Littrow quartz spectrograph. Transition probabilities for the bands of three sequences, associated with the zero, 1st, and 2nd vibrational levels of the excited electronic state, yield an f value of 0.048±0.008 which, when corrected for wavelength dependence, is about ⅓ that determined in the vacuum ultraviolet. This corresponds to a decrease in transition probability with increasing internuclear separation. Line‐width variations with temperature and density have also been measured. The optical diameter for O₂–O₂ collisions was determined as 6 A and for O₂–O collisions as 10 A.

Keywords

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