Limb view spectrum of the Earth's airglow

Mende, S. B.; Swenson, G. R.; Geller, S. P.; Viereck, R. A.; Murad, Edmond; Pike, C. P.

doi:10.1029/93ja02282

Cited by 36 publications

(33 citation statements)

References 32 publications

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“…Mende et al (1993) presented another study addressing the question, whether OH emissions from higher vibrational levels occur at higher altitudes. The authors used measurements taken with a grating spectrometer flown on the space shuttle (mission STS-37) in November 1990.…”

Section: Comparison To Previous Resultsmentioning

confidence: 99%

“…Furthermore, the main results of these studies are partly contradictory. Some model (McDade, 1991) and experimental studies (Mende et al, 1993) indicate that differences in emission peak altitudes for different vibrational levels are rather small. Other model (Makhlouf et al, 1995;Adler-Golden, 1997;Baker and Stair, 1988;Xu et al, 2012) and experimental results (Kaufmann et al, 2008;Xu et al, 2012) suggest a vibrational level dependence of the emission peak altitude of several km.…”

Section: Introductionmentioning

confidence: 99%

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On the dependence of the OH<sup>*</sup> Meinel emission altitude on vibrational level: SCIAMACHY observations and model simulations

et al. 2012

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Abstract. Measurements of the OH Meinel emissions in the terrestrial nightglow are one of the standard ground-based techniques to retrieve upper mesospheric temperatures. It is often assumed that the emission peak altitudes are not strongly dependent on the vibrational level, although this assumption is not based on convincing experimental evidence. In this study we use Envisat/SCIAMACHY (Scanning Imaging Absorption spectroMeter for Atmospheric CHartographY) observations in the near-IR spectral range to retrieve vertical volume emission rate profiles of the OH(3-1), OH(6-2) and OH(8-3) Meinel bands in order to investigate whether systematic differences in emission peak altitudes can be observed between the different OH Meinel bands. The results indicate that the emission peak altitudes are different for the different vibrational levels, with bands originating from higher vibrational levels having higher emission peak altitudes. It is shown that this finding is consistent with the majority of the previously published results. The SCIAMACHY observations yield differences in emission peak altitudes of up to about 4 km between the OH(3-1) and the OH(8-3) band.The observations are complemented by model simulations of the fractional population of the different vibrational levels and of the vibrational level dependence of the emission peak altitude. The model simulations reproduce the observed vibrational level dependence of the emission peak altitude well -both qualitatively and quantitatively -if quenching by atomic oxygen as well as multi-quantum collisional relaxation by O 2 is considered. If a linear relationship between emission peak altitude and vibrational level is assumed, then a peak altitude difference of roughly 0.5 km per vibrational level is inferred from both the SCIAMACHY observations and the model simulations.

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Section: Comparison To Previous Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

On the dependence of the OH<sup>*</sup> Meinel emission altitude on vibrational level: SCIAMACHY observations and model simulations

et al. 2012

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“…The heights of the 557.7-nm and 630.0-nm emission layers are generally thought to be about 110 km and 250 km, respectively (Sahai et al, 1990;Mende et al, 1993;Shepherd et al, 1995), but Vallance Jones et al (1991) reported that the peak height of 557.7-nm emission is about 125 km. Reflecting the uncertainty of the precise height of measurement, we shall refer to the 630.0-nm measurements as upper thermospheric winds and to the 557.7-nm measurements as lower thermospheric winds.…”

Section: Experimental Methodsmentioning

confidence: 99%

Dynamics of Neutral Wind in the polar region observed with two Fabry-Perot Interferometers

et al. 2014

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Optical observations were made at Ramfjord, Norway from January 10 to February 14, 1997. Two types of FabryPerot interferometers (FPIs), Doppler-imaging and scanning, were installed at the EISCAT radar site and were used to acquire data simultaneously with radio instruments. Both FPIs can observe emissions of two different wavelengths simultaneously. We can estimate the horizontal and vertical wind in different emission layers simultaneously with high time-resolution (∼1 min). The observations on February 8 and 9, 1997, show some notable characteristics: (1) large-scale perturbations (≈ ±150 m/s) are observed in the upper thermospheric wind. They seem to begin 30 min after the onset of a magnetic substorm and to stop when the next substorm begins. (2) Clear wave-like structures are found in the horizontal wind variations. Some of them can be seen over the entire sky, and one of them is found in a restricted regions. (3) A clear wave-like structure is also found in the vertical wind in the upper thermosphere. A similar structure can be seen in the lower thermosphere, but these structures are not always in phase. This phases difference starts at the same time that horizontal winds between the two layer has their phase difference. (4) The relation between the vertical wind and the divergence of horizontal wind seems to change with time. The correlation coefficient between them changes one-hours before and on-time of a substorm on-set. This sign of the coefficient is negative in most of the time, with considering about time-lag. It means the vertical morion is caused by divergent flow of horizontal wind.

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“…The image reveals two distinct emission layers centered at different altitude levels. The upper emission is due to the OI( 1 D) airglow emission layer and the lower emission is due to the OH(9,3) airglow emission layer (Burnside et al 1977;Mende et al 1993). Rajesh et al (2009) suggested that most of the OH(9,3) enhancements observed by ISUAL were the result of the line-of-sight integration of the corresponding OI( 1 D) enhancements.…”

Section: Instrumentation and Observationsmentioning

confidence: 99%

Global Observations of the 630-nm Nightglow and Patterns of Brightness Measured by ISUAL

Chiang

Chang

Tam

et al. 2013

Terr. Atmos. Ocean. Sci.

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This study investigates the distributions and occurrence mechanisms of the global local-midnight airglow brightness through FORMOSAT-2/ISUAL satellite imaging observations. We focus on the OI 630.0 nm nightglow emission at altitudes of ~250 km along equatorial space. The database used in this study included data from 2007 to 2008 under solar minimum conditions. The data were classified into four specified types in the statistical study. We found that the occurrence of equatorial brightness was often in the vicinity of the geographic equator and mostly at equinoxes with a tendency to move toward the summer hemisphere as the season changes. Conjugate brightness occurring simultaneously on both sides of the geomagnetic equator was observed predominantly in the northern winter. Furthermore, midnight brightness appeared to have lower luminosity from May to July. We suggest that the global midnight brightness associated with the locations and seasons was the result of several effects which include the influence of the thermospheric midnight temperature maximum (MTM), summerto-winter neutral wind, and ionospheric anomalies.

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Limb view spectrum of the Earth's airglow

Cited by 36 publications

References 32 publications

On the dependence of the OH<sup>*</sup> Meinel emission altitude on vibrational level: SCIAMACHY observations and model simulations

On the dependence of the OH<sup>*</sup> Meinel emission altitude on vibrational level: SCIAMACHY observations and model simulations

Dynamics of Neutral Wind in the polar region observed with two Fabry-Perot Interferometers

Global Observations of the 630-nm Nightglow and Patterns of Brightness Measured by ISUAL

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Limb view spectrum of the Earth's airglow

Cited by 36 publications

References 32 publications

On the dependence of the OH&lt;sup&gt;*&lt;/sup&gt; Meinel emission altitude on vibrational level: SCIAMACHY observations and model simulations

On the dependence of the OH&lt;sup&gt;*&lt;/sup&gt; Meinel emission altitude on vibrational level: SCIAMACHY observations and model simulations

Dynamics of Neutral Wind in the polar region observed with two Fabry-Perot Interferometers

Global Observations of the 630-nm Nightglow and Patterns of Brightness Measured by ISUAL

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On the dependence of the OH<sup>*</sup> Meinel emission altitude on vibrational level: SCIAMACHY observations and model simulations

On the dependence of the OH<sup>*</sup> Meinel emission altitude on vibrational level: SCIAMACHY observations and model simulations