Physics
Scientific paper
Oct 1997
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1997georl..24.2443m&link_type=abstract
Geophysical Research Letters, vol. 24, p. 2443
Physics
40
Galileo Spacecraft, High Temperature, Imaging Techniques, Solid State, Extraterrestrial Environments, Charge Coupled Devices, Atmospheric Temperature, Infrared Spectrometers, Space Probes, Volcanoes
Scientific paper
High-temperature hot spots on Io have been imaged at approximately 50 km spatial resolution by Galileo's CCD imaging system (SSI). Images were acquired during eclipses (Io in Jupiter's shadow) via the SSI clear filter (approximately 0.4-1.0 micron), detecting emissions from both small intense hot spots and diffuse extended glows associated with Io's atmosphere and plumes. A total of 13 hot spots have been detected over approximately 70% of Io's surface. Each hot spot falls precisely on a low-albedo feature corresponding to a caldera floor and/or lava flow. The hot-spot temperatures must exceed approximately 700 K for detection by SSI. Observations at wavelengths longer than those available to SSI require that most of these hot spots actually have significantly higher temperatures (approximately 1000 K or higher) and cover small areas. The high-temperature hot spots probably mark the locations of active silicate volcanism, supporting suggestions that the eruption and near-surface movement of silicate magma drives the heat flow and volcanic activity of Io.
Belton Michael J. S.
Carr Michael H.
Geissler Paul Eric
Johnson Torrence V.
Keszthelyi Laszlo
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