Evidence for methane escape and strong seasonal and dynamical perturbations of neptune's atmospheric temperatures

Aims. We studied the distribution of mid-infrared thermal emission from Neptune to determine the spatial variability of temperatures and the distribution of trace constituents, allowing us to determine the relative strengths of radiation and dynamics in its atmosphere. Methods. Mid- infrared images...

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Veröffentlicht in:	Astronomy and astrophysics (Berlin) 2007-10, Vol.473 (1), p.L5-L8
Hauptverfasser:	ORTON, G. S, ENCRENAZ, T, LEYRAT, C, PUETTER, R, FRIEDSON, A. J
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Sprache:	eng
Schlagworte:	Astronomy Astrophysics Earth, ocean, space Exact sciences and technology Physics Sciences of the Universe
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creator	ORTON, G. S ENCRENAZ, T LEYRAT, C PUETTER, R FRIEDSON, A. J
description	Aims. We studied the distribution of mid-infrared thermal emission from Neptune to determine the spatial variability of temperatures and the distribution of trace constituents, allowing us to determine the relative strengths of radiation and dynamics in its atmosphere. Methods. Mid- infrared images of the planet were taken at the Very Large Telescope on 1-2 September 2006. Results. These images reveal strong inhomogeneities in thermal emission. 17.6 and 18.7-\mum images exhibit strong seasonally elevated south polar temperatures near Neptunes tropopause. These high temperatures allow tropospheric methane, elsewhere cold-trapped at depth, to escape into the stratosphere. Poleward of 70 capital sigma , 8.6- and 12.3-\mum emission from stratospheric methane and ethane is enhanced, and a distinct, warm stratospheric feature near 65-70 capital sigma latitude is rotating with the neutral atmosphere. This feature may result from a localized wave propagating upward from the troposphere.
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Poleward of 70 capital sigma , 8.6- and 12.3-\mum emission from stratospheric methane and ethane is enhanced, and a distinct, warm stratospheric feature near 65-70 capital sigma latitude is rotating with the neutral atmosphere. 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These high temperatures allow tropospheric methane, elsewhere cold-trapped at depth, to escape into the stratosphere. Poleward of 70 capital sigma , 8.6- and 12.3-\mum emission from stratospheric methane and ethane is enhanced, and a distinct, warm stratospheric feature near 65-70 capital sigma latitude is rotating with the neutral atmosphere. 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source	Bacon EDP Sciences France Licence nationale-ISTEX-PS-Journals-PFISTEX; EDP Sciences; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects	Astronomy Astrophysics Earth, ocean, space Exact sciences and technology Physics Sciences of the Universe
title	Evidence for methane escape and strong seasonal and dynamical perturbations of neptune's atmospheric temperatures
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