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Published November 2010 | Published
Journal Article Open

Saturn's emitted power

Li, Liming ORCID icon
Conrath, Barney J.
Gierasch, Peter J.
Achterberg, Richard K.
Nixon, Conor A.
Simon‐Miller, Amy A.
Flasar, F. Michael
Banfield, Don
Baines, Kevin H.
West, Robert A. ORCID icon
Ingersoll, Andrew P. ORCID icon
Vasavada, Ashwin R. ORCID icon
Del Genio, Anthony D.
Porco, Carolyn C.
Mamoutkine, Andrei A.
Segura, Marcia E.
Bjoraker, Gordon L.
Orton, Glenn S. ORCID icon
Fletcher, Leigh N. ORCID icon
Irwin, Patrick G. J.
Read, Peter L.

Abstract

Long-term (2004–2009) on-orbit observations by Cassini Composite Infrared Spectrometer are analyzed to precisely measure Saturn's emitted power and its meridional distribution. Our evaluations suggest that the average global emitted power is 4.952 ± 0.035 W m^(−2) during the period of 2004–2009. The corresponding effective temperature is 96.67 ± 0.17 K. The emitted power is 16.6% higher in the Southern Hemisphere than in the Northern Hemisphere. From 2005 to 2009, the global mean emitted power and effective temperature decreased by ~2% and ~0.5%, respectively. Our study further reveals the interannual variability of emitted power and effective temperature between the epoch of Voyager (~1 Saturn year ago) and the current epoch of Cassini, suggesting changes in the cloud opacity from year to year on Saturn. The seasonal and interannual variability of emitted power implies that the energy balance and internal heat are also varying.

Additional Information

© 2010 American Geophysical Union. Received 20 April 2010; revised 3 August 2010; accepted 16 August 2010; published 9 November 2010. NASA Outer Planets Research Program funded this work. We acknowledge Santigo Perez‐Hoyos for providing the data of solar flux at the top of Saturn's atmosphere. We are also grateful for valuable comments and suggestions on this work from two anonymous reviewers.

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