2014
DOI: 10.1016/j.icarus.2014.08.045
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Titan’s surface composition and atmospheric transmission with solar occultation measurements by Cassini VIMS

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Cited by 25 publications
(12 citation statements)
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“…Based on Titan's bulk density (∼1.88 g/cm 3 [ Jacobson et al , ]) water ice makes up a large fraction of Titan's mass and is therefore another likely candidate surface material. Evidence for water ice on Titan's surface was first obtained by ground‐based telescopes [ Griffith et al , , ] and has also been seen in VIMS [ McCord et al , ; Griffith et al , ; Hayne et al , ] and DISR data [ Tomasko et al , ; Rannou et al , ]. Others have argued that these features can be explained by other hydrocarbons or nitriles [ Clark et al , ].…”
Section: Connection With the Surfacementioning
confidence: 94%
“…Based on Titan's bulk density (∼1.88 g/cm 3 [ Jacobson et al , ]) water ice makes up a large fraction of Titan's mass and is therefore another likely candidate surface material. Evidence for water ice on Titan's surface was first obtained by ground‐based telescopes [ Griffith et al , , ] and has also been seen in VIMS [ McCord et al , ; Griffith et al , ; Hayne et al , ] and DISR data [ Tomasko et al , ; Rannou et al , ]. Others have argued that these features can be explained by other hydrocarbons or nitriles [ Clark et al , ].…”
Section: Connection With the Surfacementioning
confidence: 94%
“…Titan is at least partially differentiated and it is likely that a water-ice crust is present (Iess et al, 2010;Mitri et al, 2010;Hemingway et al, 2013;Hayne et al, 2014). It may, however, be mixed with an uncertain combination of alkanes and alkane-hydrates, particularly in the polar regions (MacKenzie et al, 2014).…”
Section: Fluvial Incision On Titanmentioning
confidence: 99%
“…[] noted that the strong 3 µm water ice absorption feature will result in a negative spectral slope from 2.7 to 2.8 µm for any water ice exposed on Titan and that every VIMS spectrum acquired of Titan shows a positive slope between these wavelengths. New measurements of atmospheric transmission show that Titan's atmosphere absorbs more strongly at 2.7 µm than it does at 2.8 µm [ Barnes et al ., ; Hayne et al ., ], so the raw I/F measured by VIMS may not represent the true surface reflectivity at 2.7 µm. A full radiative transfer analysis is needed to confirm the quantitative effect of the atmospheric absorption on surface reflectivities.…”
Section: Introductionmentioning
confidence: 99%