Add to ORKGInternational audienceIn 2006, during Cassini's 10th flyby of Titan (T10), Bellucci et al. (2009) observed a solar occultation by Titan's atmosphere through the solar port of the Cassini/VIMS instrument. These authors noticed the existence of an unexplained additional absorption superimposed to the CH4 3.3 microns band. Because they were unable to model this absorption with gases, they attributed this intriguing feature to the signature of solid state organic components. Kim et al. (2011) revisited the data collected by Bellucci et al. (2009) and they considered the possible contribution of aerosols formed by hydrocarbon ices. They specifically took into account C2H6, CH4, CH3CN, C5H12 and C6H12 ices. More recently, Maltagliati et al. (2015...
International audienceWe report the identification of compounds on Titan's surface by spatially reso...
Context. The chemical nature of the Titan haze is poorly understood. The investigation car...
International audienceRevealed by the Cassini and Voyager Missions, a plethora of volatile species a...
International audienceIn 2006, during Cassini's 10th flyby of Titan (T10), Bellucci et al. (2009) ob...
International audienceThe complex organic chemistry harbored by the atmosphere of Titan has been inv...
We present an analysis of the VIMS solar occultations dataset, which allows us to extract vertically...
International audienceRecently, an unidentified 3.3-3.4 mum feature found in the solar occultation s...
The arrival of the Cassini spacecraft in orbit around Saturn has led to the discovery of benzene at ...
In this paper, we analyze the strong unidentified emission near 3.28 micron in Titan's upper daytime...
The Voyager 1 flyby of Titan in 1980 gave a first glimpse of the chemical complexity of Titan's atmo...
International audienceUsing synthetic spectra derived from an updated model atmosphere together with...
International audienceThe atmosphere of Titan is composed primarily of nitrogen and methane, with an...
International audienceWe report the identification of compounds on Titan's surface by spatially reso...
Context. The chemical nature of the Titan haze is poorly understood. The investigation car...
International audienceRevealed by the Cassini and Voyager Missions, a plethora of volatile species a...
International audienceIn 2006, during Cassini's 10th flyby of Titan (T10), Bellucci et al. (2009) ob...
International audienceThe complex organic chemistry harbored by the atmosphere of Titan has been inv...
We present an analysis of the VIMS solar occultations dataset, which allows us to extract vertically...
International audienceRecently, an unidentified 3.3-3.4 mum feature found in the solar occultation s...
The arrival of the Cassini spacecraft in orbit around Saturn has led to the discovery of benzene at ...
In this paper, we analyze the strong unidentified emission near 3.28 micron in Titan's upper daytime...
The Voyager 1 flyby of Titan in 1980 gave a first glimpse of the chemical complexity of Titan's atmo...
International audienceUsing synthetic spectra derived from an updated model atmosphere together with...
International audienceThe atmosphere of Titan is composed primarily of nitrogen and methane, with an...
International audienceWe report the identification of compounds on Titan's surface by spatially reso...
Context. The chemical nature of the Titan haze is poorly understood. The investigation car...
International audienceRevealed by the Cassini and Voyager Missions, a plethora of volatile species a...