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4 - The general circulation of Titan's lower and middle atmosphere
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- By S. Lebonnois, Lawrence Livermore National Laboratory, F. M. Flasar, NASA/Goddard Space Flight Center, T. Tokano, Universität Zu Köln, C. E. Newman, Ashima Research
- Edited by Ingo Müller-Wodarg, Imperial College London, Caitlin A. Griffith, University of Arizona, Emmanuel Lellouch, Observatoire de Paris, Meudon, Thomas E. Cravens, University of Kansas
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- Book:
- Titan
- Published online:
- 05 January 2014
- Print publication:
- 24 February 2014, pp 122-157
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- Chapter
- Export citation
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Summary
4.1 Introduction
The atmosphere of Titan shares a specific circulation feature with the atmosphere of Venus, the so-called superrotation. Most of the middle and lower atmosphere rotates significantly faster than the underlying solid body, with maximum zonal winds in the winter stratosphere of ~200 m/s. This chapter focuses on this dominant feature, through discussions of all aspects of Titan's atmospheric dynamics. In such a complex system, interactions are strong among atmospheric circulation, temperature structure, composition of the atmosphere, and clouds and haze distributions. Therefore, close links are made with other chapters of this book: Chapter 3 for temperature structure, Chapter 5 for composition, and Chapters 6 and 8 for clouds and haze distributions.
The altitude region covered by this chapter goes from the surface to the detached haze layer, a peculiar feature located at the top of the haze completely covering Titan (see Chapter 8), at an altitude of roughly 500 km. This region includes the troposphere, the stratosphere, and the lower mesosphere (see Chapter 3). The troposphere goes from the surface up to ~40 km (the tropopause), where the coldest temperatures are found on Titan. In this region, the atmospheric system includes the cycle of methane, presenting features similar to the hydrological system in the Earth atmosphere (see Chapters 5 and 6). The stratosphere goes from the tropopause to the stratopause, where temperatures peak, located at altitudes around 250 to 300 km (around 0.1 mbar).