Haze formation and distribution on Titan

P. Rannou; S. Lebonnois

Haze formation and distribution on Titan

P. Rannou
, S. Lebonnois

Université Versailles-Saint Quentin

Résultats de recherche: Contribution à un journal › Article de conférence › Revue par des pairs

Résumé

Titan photochemical haze is global, optically thick and has a large vertical extension. It completely hides to observers most of the lower atmosphere and surface features. Haze is also a central component of Titan climate. It is produced from photochemistry of nitrogen and methane, which are destroyed by energetic particles and ultraviolet photons. Through its optical properties, haze strongly modifies the thermal equilibrium, and interacts with dynamics to produce a strong positive feedback. Lower haze aerosols are believed to trigger clouds formation. Finally, interaction between surface and atmosphere (and then haze) is completely unknown due to a lack of information. In this paper, our goal is modest in regard of this complexity. We describe the main properties of Titan's haze; the large-scale structures, its annual cycle, the structure of aerosol particles and, finally, the little knowledge we have about composition and photochemical sources of aerosols.

langue originale	Anglais
Pages (de - à)	343-354
Nombre de pages	12
journal	European Space Agency, (Special Publication) ESA SP
Numéro de publication	1278
état	Publié - 1 déc. 2004
Evénement	International Conference TITAN - From Discovery to Encounter - Noordwijk, Pays-Bas Durée: 13 avr. 2004 → 17 avr. 2004

SDG des Nations Unies

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SDG 13 Action climatique

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title = "Haze formation and distribution on Titan",

abstract = "Titan photochemical haze is global, optically thick and has a large vertical extension. It completely hides to observers most of the lower atmosphere and surface features. Haze is also a central component of Titan climate. It is produced from photochemistry of nitrogen and methane, which are destroyed by energetic particles and ultraviolet photons. Through its optical properties, haze strongly modifies the thermal equilibrium, and interacts with dynamics to produce a strong positive feedback. Lower haze aerosols are believed to trigger clouds formation. Finally, interaction between surface and atmosphere (and then haze) is completely unknown due to a lack of information. In this paper, our goal is modest in regard of this complexity. We describe the main properties of Titan's haze; the large-scale structures, its annual cycle, the structure of aerosol particles and, finally, the little knowledge we have about composition and photochemical sources of aerosols.",

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journal = "European Space Agency, (Special Publication) ESA SP",

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T1 - Haze formation and distribution on Titan

AU - Rannou, P.

AU - Lebonnois, S.

PY - 2004/12/1

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N2 - Titan photochemical haze is global, optically thick and has a large vertical extension. It completely hides to observers most of the lower atmosphere and surface features. Haze is also a central component of Titan climate. It is produced from photochemistry of nitrogen and methane, which are destroyed by energetic particles and ultraviolet photons. Through its optical properties, haze strongly modifies the thermal equilibrium, and interacts with dynamics to produce a strong positive feedback. Lower haze aerosols are believed to trigger clouds formation. Finally, interaction between surface and atmosphere (and then haze) is completely unknown due to a lack of information. In this paper, our goal is modest in regard of this complexity. We describe the main properties of Titan's haze; the large-scale structures, its annual cycle, the structure of aerosol particles and, finally, the little knowledge we have about composition and photochemical sources of aerosols.

AB - Titan photochemical haze is global, optically thick and has a large vertical extension. It completely hides to observers most of the lower atmosphere and surface features. Haze is also a central component of Titan climate. It is produced from photochemistry of nitrogen and methane, which are destroyed by energetic particles and ultraviolet photons. Through its optical properties, haze strongly modifies the thermal equilibrium, and interacts with dynamics to produce a strong positive feedback. Lower haze aerosols are believed to trigger clouds formation. Finally, interaction between surface and atmosphere (and then haze) is completely unknown due to a lack of information. In this paper, our goal is modest in regard of this complexity. We describe the main properties of Titan's haze; the large-scale structures, its annual cycle, the structure of aerosol particles and, finally, the little knowledge we have about composition and photochemical sources of aerosols.

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AN - SCOPUS:23844551266

SN - 0379-6566

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EP - 354

JO - European Space Agency, (Special Publication) ESA SP

JF - European Space Agency, (Special Publication) ESA SP

IS - 1278

T2 - International Conference TITAN - From Discovery to Encounter

Y2 - 13 April 2004 through 17 April 2004

ER -

Haze formation and distribution on Titan

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