Titan's latitudinal temperature distribution and seasonal cycle

Creators: Stevenson, David J.; Potter, Brian E.

Abstract

Voyager IRIS brightness temperature measurements of Titan at a wavelength of 530 cm^(−1) are crudely indicative of ground or lower tropospheric temperatures and indicate 93 K for the equator and 91 K for both northern and southern high latitudes. The symmetry between north and south is unexpected for the time of Voyager encounter (Northern Titan spring). We show that this near-symmetry can arise naturally in a model where the poles are "pinned" year-round at the dew point of CH_4-N_2 lakes or, more probably, a CH_4-N_2 rich surface layer on a deep ethane-rich ocean. For a polar temperature of 91 K, the model implies that the atmosphere contains somewhat less than 8% mole fraction of CH_4.

Additional Information

© 1986 American Geophysical Union. Received August 29, 1985; revised December 2, 1985; accepted December 2, 1985. This work is supported by NASA planetary geophysics grant NAGW-185. Brian Potter performed this work at Caltech while participating in NASA's Planetary Geology Undergraduate Research Program and acknowledges their financial support. We thank an anonymous reviewer for helpful comments and corrections. Contribution number 4265 from the Division of Geological and Planetary Sciences, Caltech, Pasadena, CA 91125.

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