2015
DOI: 10.1002/2014gl059475
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Laboratory measurements of cryogenic liquid alkane microwave absorptivity and implications for the composition of Ligeia Mare, Titan

Abstract: The complex dielectric constants of liquids methane and ethane were measured at 90 K and 14.1 GHz, close to the frequency of the Cassini RADAR. The liquid ethane loss tangent is far greater than that of liquid methane, facilitating discrimination by remote sensing. The results suggest a methane-dominated composition for the northern sea, Ligeia Mare, on the basis of a recent loss tangent determination using Cassini RADAR altimetry. This contrasts a previous far higher loss tangent for the southern lake, Ontari… Show more

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Cited by 48 publications
(41 citation statements)
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References 27 publications
(57 reference statements)
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“…Such a low best fit dielectric constant not only is consistent with liquid hydrocarbons but also suggests that the composition of Ligeia Mare is dominated by liquid methane rather than liquid ethane (see Figure and Table ). Recent laboratory measurements [ Mitchell et al ., ] have confirmed previous work (see a review in Lorenz et al . [, Table 1]) showing that pure liquid methane has a significantly lower dielectric constant (~1.7) than pure liquid ethane (~2).…”
Section: Resultssupporting
confidence: 90%
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“…Such a low best fit dielectric constant not only is consistent with liquid hydrocarbons but also suggests that the composition of Ligeia Mare is dominated by liquid methane rather than liquid ethane (see Figure and Table ). Recent laboratory measurements [ Mitchell et al ., ] have confirmed previous work (see a review in Lorenz et al . [, Table 1]) showing that pure liquid methane has a significantly lower dielectric constant (~1.7) than pure liquid ethane (~2).…”
Section: Resultssupporting
confidence: 90%
“…It is very close to the value measured in laboratory by Mitchell et al . [] which found liquid methane to have ~5 times smaller loss tangent than liquid ethane (see Table ). Nitrogen has a loss tangent somewhat close to that of pure methane.…”
Section: Resultsmentioning
confidence: 99%
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“…Because they are impossible to form naturally in a warmer world containing water and oxygen, only future exploratory missions to Titan can test the hypothesis that natural chemical systems evolve chemical complexity in almost any circumstance (3). The larger seas of Titan have been determined by radar sounding to be mostly methane with significant admixtures (∼10%) of ethane and nitrogen (27,28). Because HCN is mostly insoluble in such mixtures (29), it is unlikely that polymers will form there.…”
Section: Speculations On the Implications Of These Results For Life Wmentioning
confidence: 99%
“…While we focused on an ethane-rich EMP mixture, recent comparisons of microwave absorptivity between the high-latitude northern sea "Ligeia Mare" and the southern hemisphere lake "Ontario Lacus" suggest that other lake/sea compositions, including some of primarily methane, 27,28 are also found on Titan. To see if such variations would significantly affect our results, we conducted additional simulations to compute the PMFs of a single ACN molecule in pure methane, pure ethane, and the EMP liquid (Figure 3).…”
Section: Molecular Dynamics Resultsmentioning
confidence: 99%