Tetsuya Tokano scite author profile

On the basis of previous ground-based and fly-by information, we knew that Titan's atmosphere was mainly nitrogen, with some methane, but its temperature and pressure profiles were poorly constrained because of uncertainties in the detailed composition. The extent of atmospheric electricity ('lightning') was also hitherto unknown. Here we report the temperature and density profiles, as determined by the Huygens Atmospheric Structure Instrument (HASI), from an altitude of 1,400 km down to the surface. In the upper part of the atmosphere, the temperature and density were both higher than expected. There is a lower ionospheric layer between 140 km and 40 km, with electrical conductivity peaking near 60 km. We may also have seen the signature of lightning. At the surface, the temperature was 93.65 +/- 0.25 K, and the pressure was 1,467 +/- 1 hPa.

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Methane drizzle on Titan

Tokano

McKay

Neubauer

et al. 2006

Nature

152

124

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Saturn's moon Titan shows landscapes with fluvial features suggestive of hydrology based on liquid methane. Recent efforts in understanding Titan's methane hydrological cycle have focused on occasional cloud outbursts near the south pole or cloud streaks at southern mid-latitudes and the mechanisms of their formation. It is not known, however, if the clouds produce rain or if there are also non-convective clouds, as predicted by several models. Here we show that the in situ data on the methane concentration and temperature profile in Titan's troposphere point to the presence of layered optically thin stratiform clouds. The data indicate an upper methane ice cloud and a lower, barely visible, liquid methane-nitrogen cloud, with a gap in between. The lower, liquid, cloud produces drizzle that reaches the surface. These non-convective methane clouds are quasi-permanent features supported by the global atmospheric circulation, indicating that methane precipitation occurs wherever there is slow upward motion. This drizzle is a persistent component of Titan's methane hydrological cycle and, by wetting the surface on a global scale, plays an active role in the surface geology of Titan.

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Seasonal variation of Titans atmospheric structuresimulated by a general circulation model

Tokano¹,

Neubauer²,

Laube³

et al. 1999

Planetary and Space Science

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Tidal Winds on Titan Caused by Saturn

Tokano¹,

Neubauer

2002

Icarus

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Meteorological assessment of the surface temperatures on Titan: constraints on the surface type

Tokano

2005

Icarus

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Tetsuya Tokano

In situ measurements of the physical characteristics of Titan's environment

Methane drizzle on Titan

Seasonal variation of Titans atmospheric structuresimulated by a general circulation model

Tidal Winds on Titan Caused by Saturn

Meteorological assessment of the surface temperatures on Titan: constraints on the surface type

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