Abstract
The 3914-Å band of [Formula: see text] has been observed in the zenith at twilight by a photoelectric spectrometer; simultaneous measurements of the 5577-Å line were made as a check on auroral activity. A small twilight enhancement was probably observed in the absence of aurora in 1960, but it could not be detected in 1961. After subtraction of this background, the auroral measurements showed [Formula: see text] densities of about 1000 ions/cm3 at 160 km, with a sharp decrease at lower altitudes; some displays, presumably located near 100 km, showed no twilight effect at all. It is suggested that [Formula: see text] ions are rapidly removed in the 100-km region by either charge–exchange or ion–atom interchange reactions which convert them into NO+ or some other ion. The ions in the twilight airglow are therefore probably located at 550 to 620 km, being produced there by solar extreme ultraviolet. However, this process requires a much higher N2 concentration at such heights than is normally supposed. This may be produced at times of high solar activity, and especially during magnetic storms.
Publisher
Canadian Science Publishing
Subject
General Physics and Astronomy
Cited by
14 articles.
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1. Sunlit aurora and the N2+ ion: a personal perspective;Planetary and Space Science;2003-11
2. The upper atmosphere of the earth;Atomic Processes and Application;1976
3. Nitrogen Dissociation;Chemistry of the Ionosphere;1970
4. Ion Formation in the Ionosphere;Chemistry of the Ionosphere;1970
5. Rates of Processes of Dissociative Recombination;Chemistry of the Ionosphere;1970