Add to ORKGWe present the first study of gaseous composition monitoring for the PAMPRE experiment, which simulates Titan's atmospheric chemistry by radio-frequency N 2-CH 4 plasma. Methane consumption is quantified for various N 2-CH 4 gas mixtures. Moreover in situ mass spectrometry (MS) and ex-situ gas chromatography coupled with mass spectrometry (GC-MS) analyses reveal a large dominance of nitrile species in the gas phase chemistry
National audienceA complex atmospheric photochemistry has been revealed in Titan’s atmosphere by the...
In this paper, we report presence of various organic products formed in a flowing atmospheric glow d...
The complex organic chemistry that takes place in Titan's dense atmosphere, composed mainly of N2 an...
We present the first study of gaseous composition monitoring for the PAMPRE experiment, which simula...
International audienceTitan’s gas phase atmospheric chemistry leading to the formation of solid orga...
International audienceThis work presents the first study of the gaseous products resulting from the ...
International audienceThe Cassini Mission has greatly improved our understanding of the dynamics and...
International audienceTitan's atmospheric gas phase chemistry leading to the formation of organic ae...
International audienceA new reactor, named APSIS for Atmospheric Photochemistry SImulated by Synchro...
National audienceA complex atmospheric photochemistry has been revealed in Titan’s atmosphere by the...
In this paper, we report presence of various organic products formed in a flowing atmospheric glow d...
The complex organic chemistry that takes place in Titan's dense atmosphere, composed mainly of N2 an...
We present the first study of gaseous composition monitoring for the PAMPRE experiment, which simula...
International audienceTitan’s gas phase atmospheric chemistry leading to the formation of solid orga...
International audienceThis work presents the first study of the gaseous products resulting from the ...
International audienceThe Cassini Mission has greatly improved our understanding of the dynamics and...
International audienceTitan's atmospheric gas phase chemistry leading to the formation of organic ae...
International audienceA new reactor, named APSIS for Atmospheric Photochemistry SImulated by Synchro...
National audienceA complex atmospheric photochemistry has been revealed in Titan’s atmosphere by the...
In this paper, we report presence of various organic products formed in a flowing atmospheric glow d...
The complex organic chemistry that takes place in Titan's dense atmosphere, composed mainly of N2 an...