Experimental Proof for the Existence of Nonthermal Rotational Distributions of OH (2Σ+) in Flames
- 1 October 1956
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 25 (4) , 676-680
- https://doi.org/10.1063/1.1743027
Abstract
Experiments have been carried out to determine whether nonthermal rotational distributions in the 2Σ+ electronic state of OH observed in certain flames are caused by self‐absorption. A study of emission (single and double path) and absorption by OH between 3064 A and 3350 A in atmospheric and low‐pressure flames has shown that self‐absorption is negligible in at least two cases in which nonthermal distributions are found. This leads to the conclusion that anomalous ``temperatures'' of OH measured previously in hydrocarbon flames at low pressure and in highly diluted flames at atmospheric pressure are real.Keywords
This publication has 14 references indexed in Scilit:
- Spectral Absorption Method for Determining Population “Temperatures” in Hot Gases*†Journal of the Optical Society of America, 1956
- Experimental Evidence for the Existence of Abnormal OH Rotational ``Temperatures'' in Low-Pressure FlamesThe Journal of Chemical Physics, 1955
- Effects of Temperature Gradients, Self-Absorption, and Line Shape on Apparent Rotational Temperatures of OHThe Journal of Chemical Physics, 1954
- Effects of Self-Absorption on Rotational ``Temperatures'' of OH in FlamesThe Journal of Chemical Physics, 1953
- Effect of Spectral Line Shape on Apparent Rotational Temperatures of OHThe Journal of Chemical Physics, 1953
- Rotational ``Temperatures'' of OH in Diluted FlamesThe Journal of Chemical Physics, 1953
- Quantitative Studies of Apparent Rotational Temperatures of OH in Emission and Absorption (Spectral Lines with Doppler Contour)The Journal of Chemical Physics, 1953
- Spectroscopic Studies of Low Pressure Combustion FlamesThe Journal of Chemical Physics, 1952
- Emission and Absorption of Radiation by Spectral Lines with Doppler ContourThe Journal of Chemical Physics, 1952
- Spectroscopic studies of low-pressure flames; temperature measurements in acetylene flamesProceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences, 1948