The O(<sup>1</sup>S) dayglow emission as observed by the WIND imaging interferometer on the UARS

The O(<sup>1</sup>S) dayglow emission as observed by the WIND imaging interferometer on the UARS

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Volume emission rate profiles of the O(<sup>1</sup>D-<sup>1</sup>S) 5577 Å dayglow measured by the WIND imaging interferometer on the Upper Atmosphere Research Satellite are analyzed to examine the O(<sup>1</sup>S) excitation mechanisms in the sunlit lower thermos...

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Main Authors: B. H. Solheim, G. G. Shepherd, I. C. McDade, V. Singh, W. E. Ward
Format: Article
Language:English
Published: Copernicus Publications
Series:Annales Geophysicae
Online Access:http://www.ann-geophys.net/14/637/1996/angeo-14-637-1996.html
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spelling doaj-f66aaa84de074bd5b55d636ef63a21b82020-11-25T01:18:35ZengCopernicus PublicationsAnnales Geophysicae0992-76891432-0576146637646The O(<sup>1</sup>S) dayglow emission as observed by the WIND imaging interferometer on the UARSB. H. SolheimG. G. ShepherdI. C. McDadeV. SinghW. E. WardVolume emission rate profiles of the O(<sup>1</sup>D-<sup>1</sup>S) 5577 Å dayglow measured by the WIND imaging interferometer on the Upper Atmosphere Research Satellite are analyzed to examine the O(<sup>1</sup>S) excitation mechanisms in the sunlit lower thermosphere and upper mesosphere. The observed emission profiles are compared with theoretical profiles calculated using a model which takes into account all of the known daytime sources of O(<sup>1</sup>S). These include photoelectron impact on atomic oxygen, dissociative recombination of O<sup>+</sup><sub>2</sub>, photodissociation of molecular oxygen, energy transfer from metastable N<sub>2</sub>(<i>A</i><sup>3</sup>&#x03A3;<sup>+</sup><i><sub>u</sub></i>) and three body recombination of atomic oxygen. Throughout most of the thermosphere the measured and modelled emission rates are in reasonably good agreement, given the limitations of the model, but in the region below 100 km, where the oxygen atom recombination source is likely to dominate, the measured emission rates are considerably larger than those modelled using the MSIS-90 oxygen atom densities. This discrepancy is discussed in terms of possible inadequacies in the MSIS-90 model atmosphere and/or additional sources of O(<sup>1</sup>S) at low altitude. http://www.ann-geophys.net/14/637/1996/angeo-14-637-1996.html
collection DOAJ
language English
format Article
sources DOAJ
author B. H. Solheim
G. G. Shepherd
I. C. McDade
V. Singh
W. E. Ward
spellingShingle B. H. Solheim
G. G. Shepherd
I. C. McDade
V. Singh
W. E. Ward
The O(<sup>1</sup>S) dayglow emission as observed by the WIND imaging interferometer on the UARS
Annales Geophysicae
author_facet B. H. Solheim
G. G. Shepherd
I. C. McDade
V. Singh
W. E. Ward
author_sort B. H. Solheim
title The O(<sup>1</sup>S) dayglow emission as observed by the WIND imaging interferometer on the UARS
title_short The O(<sup>1</sup>S) dayglow emission as observed by the WIND imaging interferometer on the UARS
title_full The O(<sup>1</sup>S) dayglow emission as observed by the WIND imaging interferometer on the UARS
title_fullStr The O(<sup>1</sup>S) dayglow emission as observed by the WIND imaging interferometer on the UARS
title_full_unstemmed The O(<sup>1</sup>S) dayglow emission as observed by the WIND imaging interferometer on the UARS
title_sort o(<sup>1</sup>s) dayglow emission as observed by the wind imaging interferometer on the uars
publisher Copernicus Publications
series Annales Geophysicae
issn 0992-7689
1432-0576
description Volume emission rate profiles of the O(<sup>1</sup>D-<sup>1</sup>S) 5577 Å dayglow measured by the WIND imaging interferometer on the Upper Atmosphere Research Satellite are analyzed to examine the O(<sup>1</sup>S) excitation mechanisms in the sunlit lower thermosphere and upper mesosphere. The observed emission profiles are compared with theoretical profiles calculated using a model which takes into account all of the known daytime sources of O(<sup>1</sup>S). These include photoelectron impact on atomic oxygen, dissociative recombination of O<sup>+</sup><sub>2</sub>, photodissociation of molecular oxygen, energy transfer from metastable N<sub>2</sub>(<i>A</i><sup>3</sup>&#x03A3;<sup>+</sup><i><sub>u</sub></i>) and three body recombination of atomic oxygen. Throughout most of the thermosphere the measured and modelled emission rates are in reasonably good agreement, given the limitations of the model, but in the region below 100 km, where the oxygen atom recombination source is likely to dominate, the measured emission rates are considerably larger than those modelled using the MSIS-90 oxygen atom densities. This discrepancy is discussed in terms of possible inadequacies in the MSIS-90 model atmosphere and/or additional sources of O(<sup>1</sup>S) at low altitude.
url http://www.ann-geophys.net/14/637/1996/angeo-14-637-1996.html
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