2010
DOI: 10.1016/j.icarus.2010.06.035
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Far-infrared opacity sources in Titan’s troposphere reconsidered

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Cited by 16 publications
(15 citation statements)
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“…Titan's atmosphere is photochemically active even at lower altitudes and leads to the formation of complex tholin-like potential prebiotic molecules due to the penetrating longer wavelength photons. This is consistent with observations of Titan's haze stretching between B500 km and B50 km above the surface 9 , containing several regions of haze (0, A, B and C) as recently characterized by the Cassini CIRS instrument 34,35 .…”
supporting
confidence: 92%
“…Titan's atmosphere is photochemically active even at lower altitudes and leads to the formation of complex tholin-like potential prebiotic molecules due to the penetrating longer wavelength photons. This is consistent with observations of Titan's haze stretching between B500 km and B50 km above the surface 9 , containing several regions of haze (0, A, B and C) as recently characterized by the Cassini CIRS instrument 34,35 .…”
supporting
confidence: 92%
“…Following Tomasko et al (2008a) and de Kok et al (2010), we confirm that the N2-CH4 collision-induced absorption predicted by Borysow and Tang (1993) is too weak at temperatures of 70-85 K. We found that a constant multiplicative factor of ~1.52 yields a satisfactory reproduction of the CIRS spectra, in contrast with the conclusions of Anderson and Samuelson (2011) which were essentially based on limb and high emission angle spectra.…”
Section: Discussionsupporting
confidence: 74%
“…The model used a CH 4 -N 2 opacity based on the CH 4 altitude profile of Niemann et al (2010). Absorption coefficients for CH 4 -N 2 were taken from Borysow & Tang (1993) and were increased by 50% following de Kok et al (2010). We adopted an H 2 -N 2 opacity based on a 0.001 mole fraction of H 2 (Courtin et al 1995;Jennings et al 2009;Niemann et al 2010) using H 2 -N 2 absorption coefficients from Courtin (1988) and Dore et al (1986).…”
Section: Discussionmentioning
confidence: 99%