The rates and altitudes for the dissociation of atmospheric constituents on Titan are calculated for solar ultraviolet radiation, the solar wind, Saturn magnetospheric particles, the Saturn co-rotating plasma, and cosmic rays. Laboratory experiments show that a variety of simple gas phase organic molecules and more complex organic solids called tholins are produced by such irradiations of simulated Titanian atmospheres. Except for ultraviolet wavelengths longward of the methane photodissociation continuum, most dissociation events occur between about 3100 and 3600 km altitude, corresponding well to the region of EUV opacity detected by Voyager. For a wide variety of simple to moderately complex organic gases in the Titanian atmosphere, cond...
The exploration of planetary atmosphere is being advanced by the exciting results of the Cassin-Huyg...
International audienceFractionation of planetary systems is both interesting and puzzling. While the...
International audienceThough Titan’s atmosphere is reducing with its 98% N2, 2% CH4 and 0.1% H2, CO ...
The photochemistry of simple molecules containing carbon, hydrogen, nitrogen, and oxygen atoms in th...
Observations of nonequilibrium phenomena on the Saturn satellite Titan indicate the occurrence of or...
We present results of an investigation into the formation of nitrogen-bearing molecules in the atmos...
A photochemical theory is proposed for producing complex polymers in a methane atmosphere. It is arg...
The complex organic chemistry that takes place in Titan's dense atmosphere, composed mainly of N2 an...
International audienceAs a result of the 13-year exploration of the Saturn system by the Cassini-Huy...
WOS:000318872100005International audienceTitan, the largest moon of Saturn and similar to Earth in m...
Titan, the largest moon of Saturn and similar to Earth in many aspects, has unique orange-yellow col...
A comprehensive steady-state one-dimensional photochemical model of the atmosphere of Titan has been...
It is clear from the experiments that a variety of complex organic models can be produced by lightni...
Titan is the largest moon of Saturn, with a thick (1.45 bar) atmosphere composed primarily of molecu...
We tabulate the most abundant gases and their radiation yields, for two experimental pressures: 0.24...
The exploration of planetary atmosphere is being advanced by the exciting results of the Cassin-Huyg...
International audienceFractionation of planetary systems is both interesting and puzzling. While the...
International audienceThough Titan’s atmosphere is reducing with its 98% N2, 2% CH4 and 0.1% H2, CO ...
The photochemistry of simple molecules containing carbon, hydrogen, nitrogen, and oxygen atoms in th...
Observations of nonequilibrium phenomena on the Saturn satellite Titan indicate the occurrence of or...
We present results of an investigation into the formation of nitrogen-bearing molecules in the atmos...
A photochemical theory is proposed for producing complex polymers in a methane atmosphere. It is arg...
The complex organic chemistry that takes place in Titan's dense atmosphere, composed mainly of N2 an...
International audienceAs a result of the 13-year exploration of the Saturn system by the Cassini-Huy...
WOS:000318872100005International audienceTitan, the largest moon of Saturn and similar to Earth in m...
Titan, the largest moon of Saturn and similar to Earth in many aspects, has unique orange-yellow col...
A comprehensive steady-state one-dimensional photochemical model of the atmosphere of Titan has been...
It is clear from the experiments that a variety of complex organic models can be produced by lightni...
Titan is the largest moon of Saturn, with a thick (1.45 bar) atmosphere composed primarily of molecu...
We tabulate the most abundant gases and their radiation yields, for two experimental pressures: 0.24...
The exploration of planetary atmosphere is being advanced by the exciting results of the Cassin-Huyg...
International audienceFractionation of planetary systems is both interesting and puzzling. While the...
International audienceThough Titan’s atmosphere is reducing with its 98% N2, 2% CH4 and 0.1% H2, CO ...