An uppermost haze layer above 100 km found over Venus by the SOIR instrument onboard Venus Express

An uppermost haze layer above 100 km found over Venus by the SOIR instrument onboard Venus Express

The Solar Occultation in the InfraRed (SOIR) instrument onboard Venus Express was designed to measure the Venusian atmospheric transmission at high altitudes (65–220 km) in the infrared range (2.2–4.3 μm) with a high spectral resolution. In this work, we investigate the optical properties of Venus’s...

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Veröffentlicht in:Earth, planets, and space planets, and space, 2019-11, Vol.71 (1), p.1-12, Article 124
Hauptverfasser: Takagi, Seiko, Mahieux, Arnaud, Wilquet, Valérie, Robert, Séverine, Vandaele, Ann Carine, Iwagami, Naomoto
Format: Artikel
Sprache:eng
Schlagworte:
2. Aeronomy
Aerosols
Atmosphere
Atmospheric physics
Atmospheric transmission
Cloud
Earth and Environmental Science
Earth Sciences
Extinction coefficient
Geology
Geophysics/Geodesy
Haze
High altitude
Infrared instruments
Mixing ratio
Optical properties
Optical thickness
Solar occultation
Spectral resolution
Spectroscopy
Venus
Venus (Planet)
Venus atmosphere
Venus Express (ESA)
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Zusammenfassung:The Solar Occultation in the InfraRed (SOIR) instrument onboard Venus Express was designed to measure the Venusian atmospheric transmission at high altitudes (65–220 km) in the infrared range (2.2–4.3 μm) with a high spectral resolution. In this work, we investigate the optical properties of Venus’s haze layer above 90 km using SOIR solar occultation observations. Vertical and latitudinal profiles of the extinction coefficient, optical thickness, and mixing ratio of aerosols are retrieved. One of the most remarkable results is that the aerosol mixing ratio tends to increase with altitude above 90 km at both high and low latitudes. We speculate how aerosols could be produced at such high altitudes.
ISSN:1880-5981
1343-8832
1880-5981
DOI:10.1186/s40623-019-1103-x