Solar system

A tropical haze band in Titan's stratosphere

Icarus 207:1 (2010) 485-490

Authors:

R de Kok, PGJ Irwin, NA Teanby, S Vinatier, F Tosi, A Negrão, S Osprey, A Adriani, ML Moriconi, A Coradini

Abstract:

Inspection of near-infrared images from Cassini's Imaging Science Subsystem and Visual and Infrared Mapping Spectrometer have revealed a new feature in Titan's haze structure: a narrow band of increased scattering by haze south of the equator. The band seems to indicate a region of very limited mixing in the lower stratosphere, which causes haze particles to be trapped there. This could explain the sharp separation between the two hemispheres, known as the north-south asymmetry, seen in images. The separation of the two hemispheres can also be seen in the stratosphere above 150 km using infrared spectra measured by Cassini's Composite Infrared Spectrometer. Titan's behaviour in the lower tropical stratosphere is remarkably similar to that of the Earth's tropical stratosphere, which hints at possible common dynamical processes. © 2009 Elsevier Inc. All rights reserved.

Compositional evidence for Titan's stratospheric tilt

Planetary and Space Science 58:5 (2010) 792-800

Authors:

NA Teanby, PGJ Irwin, R de Kok

Abstract:

Five years of Cassini CIRS infrared spectra have been used to determine the tilt of Titan's stratospheric symmetry axis with respect to the solid body rotation axis. Measurements of HCN abundance centred around 5 mbar (125 km altitude) at equatorial latitudes show the symmetry axis is tilted by 4.0 ± 1 . 5{ring operator} in a direction 70 ± 40{ring operator} W of the sub-solar point. This value is consistent with tilts determined from temperature and haze measurements by Achterberg et al. (2008a) and Roman et al. (2009). The consistency of results from three independent methods suggests that Titan's entire stratosphere is tilted and provides a powerful constraint on the underlying atmospheric dynamics. © 2010 Elsevier Ltd. All rights reserved.

The future of planetary geophysics

Astronomy & Geophysics Oxford University Press (OUP) 51:2 (2010) 2.22-2.25

Authors:

Nick Teanby, Neil Bowles

Thermal inertia and bolometric Bond albedo values for Mimas, Enceladus, Tethys, Dione, Rhea and Iapetus as derived from Cassini/CIRS measurements

Icarus Elsevier 206:2 (2010) 573-593

Authors:

CJA Howett, JR Spencer, J Pearl, M Segura

Mudball: Surface dust and Snowball Earth deglaciation

Journal of Geophysical Research American Geophysical Union (AGU) 115:D3 (2010)

Authors:

Dorian S Abbot, Raymond T Pierrehumbert