Journal ArticleDOI
Io on the eve of the galileo mission
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TLDR
Io, the innermost of Jupiter's large moons, is one of the most unusual objects in the Solar System as discussed by the authors, which produces a global heat flux 40 times the terrestrial value, producing intense volcanic activity and a global resurfacing rate averaging perhaps 1 cm yr−1.Abstract:
▪ Abstract Io, innermost of Jupiter's large moons, is one of the most unusual objects in the Solar System. Tidal heating of the interior produces a global heat flux 40 times the terrestrial value, producing intense volcanic activity and a global resurfacing rate averaging perhaps 1 cm yr−1. The volcanoes may erupt mostly silicate lavas, but the uppermost surface is dominated by sulfur compounds including SO2 frost. The volcanoes and frost support a thin, patchy SO2 atmosphere with peak pressure near 10−8 bars. Self-sustaining bombardment of the surface and atmosphere by Io-derived plasma trapped in Jupiter's magnetosphere causes escape of material from Io (predominantly sulfur, oxygen, and sodium atoms, ions, and molecules) at a rate of about 103 kg s−1. The resulting Jupiter-encircling torus of ionized sulfur and oxygen dominates the Jovian magnetosphere and, together with an extended cloud of neutral sodium, is readily observable from Earth.read more
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Journal ArticleDOI
Vegetation's red edge: a possible spectroscopic biosignature of extraterrestrial plants.
TL;DR: This work presents Earthshine observations from Apache Point Observatory to emphasize that time variability is key to detecting weak surface biosignatures such as the vegetation red edge, and implies that future terrestrial-planet-characterizing space missions should obtain data that allow time-varying, sharp spectral features at unknown wavelengths to be identified.
Journal ArticleDOI
The sub-Alfvénic interaction of the Galilean satellites with the Jovian magnetosphere
TL;DR: In this article, it was shown that the sub-Alfvenic, low-beta interaction can be described by an anisotropic conducting atmosphere joined to an Alfven wing as one extreme case and the Jovian ionosphere as the other extreme case.
Journal ArticleDOI
Active Volcanism on Io as Seen by Galileo SSI
Alfred S. McEwen,Laszlo P. Keszthelyi,Paul Geissler,Damon P. Simonelli,Michael H. Carr,Torrence V. Johnson,Kenneth P. Klaasen,H. Herbert Breneman,Todd J. Jones,James M. Kaufman,K. Magee,David A. Senske,M. J. S. Belton,Gerald Schubert +13 more
TL;DR: Io has been monitored during the nominal Galileo satellite tour from mid 1996 through late 1997 by the Solid State Imaging (SSI) experiment, which was able to observe many manifestations of active volcanism, including changes in the color and albedo of the surface, active airborne plumes, and glowing vents seen in eclipse as discussed by the authors.
BookDOI
Comparative Climatology of Terrestrial Planets
TL;DR: The Comparative Climatology of Terrestrial Planets (CCP) as discussed by the authors is a collection of more than sixty leading experts in the field that sets forth the foundations for this emerging new science and brings the reader to the forefront of our current understanding of atmospheric formation and climate evolution.
Journal ArticleDOI
Near-Infrared Spectroscopy and Spectral Mapping of Jupiter and the Galilean Satellites: Results from Galileo's Initial Orbit
Robert W. Carlson,William D. Smythe,Kevin H. Baines,E. Barbinis,Kris J. Becker,R. Burns,S. B. Calcutt,Wendy M. Calvin,Roger N. Clark,G. E. Danielson,A. G. Davies,Pierre Drossart,T. Encrenaz,Fraser P. Fanale,J. Granahan,Gary B. Hansen,P. Herrera,Charles A. Hibbitts,J. Hui,Patrick G. J. Irwin,Torrence V. Johnson,L. W. Kamp,Hugh H. Kieffer,F. Leader,Emmanuel Lellouch,R. Lopes-Gautier,Dennis L. Matson,Thomas B. McCord,R. Mehlman,Adriana C. Ocampo,Glenn S. Orton,M. Roos-Serote,M. Segura,James H. Shirley,L. A. Soderblom,A. Stevenson,Fredric W. Taylor,J. Torson,Alex A. S. Weir,Paul R. Weissman +39 more
TL;DR: Spectra for a 5-micrometer hot spot on Jupiter are consistent with the absence of a significant water cloud above 8 bars and with a depletion of water compared to that predicted for solar composition, corroborating results from the Galileo probe.
References
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Journal ArticleDOI
Detection of neutral oxygen and sulfur emissions near Io using IUE
Gilda E. Ballester,H. W. Moos,P. D. Feldman,Darrell F. Strobel,Michael E. Summers,Jean-Loup Bertaux,Thomas E. Skinner,Michel C. Festou,J. H. Lieske +8 more
TL;DR: IUE spectra have shown several O I and S I emissions near Io and the optical thickness of the S I 1814 A multiplet indicates that the S column density is greater than about 2 x 10 to the 12th/sq cm as discussed by the authors.
Journal ArticleDOI
Sulfur dioxide on Io: Spatial distribution and physical state
TL;DR: In this paper, the 4-micron SO2 band on Jupiter's satellite Io and laboratory measurements of SO2 frost are presented. And the observations confirm the existence of a large longitudinal variation in band strength, but show no evidence of temporal changes.
Journal ArticleDOI
Energy partitioning in the Io plasma torus
TL;DR: In this paper, the effects of various physical processes on the density and energy partitioning of the Io plasma torus were investigated, including electron impact ionization, charge exchange, electron-ion collisions, and confinement time loss.
Journal ArticleDOI
Physics and Chemistry of Sulfur Lakes on Io
TL;DR: In this article, a model for a convecting sulfur lake, heated from below by a silicate magma chamber, is constructed and applied to major hot spot regions on Jupiter's satellite Io.
Journal ArticleDOI
Discovery of hotspots on Io using disk-resolved infrared imaging
John R. Spencer,Mark A. Shure,M. E. Ressler,Jay D. Goguen,W. M. Sinton,D. Toomey,A. Denault,J. Westfall +7 more
TL;DR: In this article, an IR array camera was used to obtain direct IR images of Io with resolution better than 0.5 arcsec, so that more than one hotspot is seen on Io in Jupiter eclipse.