Add to ORKGWe present results of an investigation into the formation of nitrogen-bearing molecules in the atmosphere of Titan. We extend a previous model to cover the region below the tropopause, so the new model treats the atmosphere from Titan's surface to an altitude of 1500 km. We consider the effects of condensation and sublimation using a continuous, numerically stable method. This is coupled with parameterized treatments of the sedimentation of the aerosols and their condensates, and the formation of haze particles. These processes affect the abundances of heavier species such as the nitrogen-bearing molecules, but have less effect on the abundances of lighter molecules. Removal of molecules to form aerosols also plays a role in determining the...
International audienceThe largest moon of Saturn, Titan, is known for its dense, nitrogen-rich atmos...
In Titan's atmosphere, composed mainly of N2 (95-98%) and CH4 (2-5%), a complex chemistry occurs at ...
The significant variations in both measured and modeled densities of minor species in Titan's atmosp...
We present results of an investigation into the formation of nitrogen-bearing molecules in the atmos...
The photochemistry of simple molecules containing carbon, hydrogen, nitrogen, and oxygen atoms in th...
The photochemistry of N2 and CH4 in the atmosphere of Titan leads to a very rich chemistry which is ...
Titan is the largest moon of Saturn, with a thick (1.45 bar) atmosphere composed primarily of molecu...
The rates and altitudes for the dissociation of atmospheric constituents on Titan are calculated for...
Planetary atmospheres can be thought of as global-scale reactors capable of synthesizing large, comp...
A comprehensive steady-state one-dimensional photochemical model of the atmosphere of Titan has been...
Titan is Saturn's largest moon, with a thick (1.45 bar) atmosphere composed primarily of molecular n...
This thesis addresses how Titan, the largest moon of Saturn, was able to acquire and maintain a nitr...
The exploration of planetary atmosphere is being advanced by the exciting results of the Cassin-Huyg...
International audienceThough Titan’s atmosphere is reducing with its 98% N2, 2% CH4 and 0.1% H2, CO ...
International audienceThe largest moon of Saturn, Titan, is known for its dense, nitrogen-rich atmos...
In Titan's atmosphere, composed mainly of N2 (95-98%) and CH4 (2-5%), a complex chemistry occurs at ...
The significant variations in both measured and modeled densities of minor species in Titan's atmosp...
We present results of an investigation into the formation of nitrogen-bearing molecules in the atmos...
The photochemistry of simple molecules containing carbon, hydrogen, nitrogen, and oxygen atoms in th...
The photochemistry of N2 and CH4 in the atmosphere of Titan leads to a very rich chemistry which is ...
Titan is the largest moon of Saturn, with a thick (1.45 bar) atmosphere composed primarily of molecu...
The rates and altitudes for the dissociation of atmospheric constituents on Titan are calculated for...
Planetary atmospheres can be thought of as global-scale reactors capable of synthesizing large, comp...
A comprehensive steady-state one-dimensional photochemical model of the atmosphere of Titan has been...
Titan is Saturn's largest moon, with a thick (1.45 bar) atmosphere composed primarily of molecular n...
This thesis addresses how Titan, the largest moon of Saturn, was able to acquire and maintain a nitr...
The exploration of planetary atmosphere is being advanced by the exciting results of the Cassin-Huyg...
International audienceThough Titan’s atmosphere is reducing with its 98% N2, 2% CH4 and 0.1% H2, CO ...
International audienceThe largest moon of Saturn, Titan, is known for its dense, nitrogen-rich atmos...
In Titan's atmosphere, composed mainly of N2 (95-98%) and CH4 (2-5%), a complex chemistry occurs at ...
The significant variations in both measured and modeled densities of minor species in Titan's atmosp...