Seasonal Changes in Titan's Surface Temperatures

Seasonal changes in Titan's surface brightness temperatures have been observed by Cassini in the thermal infrared. The Composite Infrared Spectrometer (CIRS) measured surface radiances at 19 micron in two time periods: one in late northern winter (Ls = 335d eg) and another centered on northern...

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Hauptverfasser:	Jennins, Donald E., Cottini, V., Nixon, C. A., Flasar, F. M., Kunde, V. G., Samuelson, R. E., Romani, P. N., Hesman, B. E., Carlson, R. C., Gorius, N. J. P., Coustenis, A., Tokano, T.
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Schlagworte:	Lunar And Planetary Science And Exploration
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creator	Jennins, Donald E. Cottini, V. Nixon, C. A. Flasar, F. M. Kunde, V. G. Samuelson, R. E. Romani, P. N. Hesman, B. E. Carlson, R. C. Gorius, N. J. P. Coustenis, A. Tokano, T.
description	Seasonal changes in Titan's surface brightness temperatures have been observed by Cassini in the thermal infrared. The Composite Infrared Spectrometer (CIRS) measured surface radiances at 19 micron in two time periods: one in late northern winter (Ls = 335d eg) and another centered on northern spring equinox (Ls = 0 deg). In both periods we constructed pole-to-pole maps of zonally averaged brightness temperatures corrected for effects of the atmosphere. Between late northern winter and northern spring equinox a shift occurred in the temperature distribution, characterized by a warming of approximately 0.5 K in the north and a cooling by about the same amount in the south. At equinox the polar surface temperatures were both near 91 K and the equator was 93.4 K. We measured a seasonal lag of delta Ls approximately 9 in the meridional surface temperature distribution, consistent with the post-equinox results of Voyager 1 as well as with predictions from general circulation modeling. A slightly elevated temperature is observed at 65 deg S in the relatively cloud-free zone between the mid-latitude and southern cloud regions.
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We measured a seasonal lag of delta Ls approximately 9 in the meridional surface temperature distribution, consistent with the post-equinox results of Voyager 1 as well as with predictions from general circulation modeling. 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title	Seasonal Changes in Titan's Surface Temperatures
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