Io: Charting thermal emission variability with the Galileo NIMS Io Thermal Emission Database (NITED): Loki Patera

Io: Charting thermal emission variability with the Galileo NIMS Io Thermal Emission Database (NITED): Loki Patera

We have calculated the ≈5‐μm radiant flux for every volcanic hot spot in every one of the 190 GalileoNear‐Infrared Mapping Spectrometer (NIMS) tube observations of Io obtained between 28 June 1996 and 16 October 2001 in order to determine the variability of thermal emission from Io's volcanoes...

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Bibliographic Details
Published in:Geophysical research letters Vol. 39; no. 1
Main Authors: Davies, A. G., Veeder, G. J., Matson, D. L., Johnson, T. V.
Format: Journal Article
Language:English
Published: Washington, DC Blackwell Publishing Ltd 01-01-2012
American Geophysical Union
John Wiley & Sons, Inc
Subjects:
Earth sciences
Earth, ocean, space
Emission measurements
Exact sciences and technology
Fluctuations
infrared
Jupiter
Moons
Planetology
Planets
Remote sensing
volcanism
Volcanoes
Sunlight
United States
eruptions
Io
Regional scope
volcanoes
solar radiation
global
cartography
variability
North America
thermal emission
Galileo Program
Sunlight
hot spots
temperature
emission spectra
data bases
Comparative study
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Summary:We have calculated the ≈5‐μm radiant flux for every volcanic hot spot in every one of the 190 GalileoNear‐Infrared Mapping Spectrometer (NIMS) tube observations of Io obtained between 28 June 1996 and 16 October 2001 in order to determine the variability of thermal emission from Io's volcanoes at local, regional and global scales, and to identify individual eruption episodes where thermal emission waxes and wanes. The resulting NIMS Io Thermal Emission Database (NITED) allows the comparison of activity at individual volcanoes and different regions of Io. The database contains over 1000 measurements of radiant flux at approximately 5μm, corrected for emission angle, range to target and incident sunlight (where necessary). We examine the data for Loki Patera, Io's most powerful volcano. For data acquired in local darkness we use two‐temperature fits to nighttime spectra and prior knowledge of emitting area to determine total radiated thermal emission. For other data we use the constancy of the integrated thermal emission spectrum to determine total thermal emission from measurements of radiant flux at 5μm. As seen by NIMS, total thermal emission from Loki Patera varies between 7600 GW and 17000 GW. We revise upwards previous estimates of thermal emission from NIMS data. NIMS 3.5‐μm radiant fluxes (both measured and estimated) are consistent with measurements from ground‐based telescopes. This work highlights the value of NITED as a research tool. Key Points We quantify thermal emission from all hot spots in all NIMS observations We revise upwards estimates of heat flow from Loki Patera from NIMS data Max observed thermal emission is 17000 GW, consistent with ground observations
Bibliography:ark:/67375/WNG-M93C2BXK-B
istex:F10BF21E7F6E4F9DCD2317C16087FDEE7F168EFD
ArticleID:2011GL049999
Tab-delimited Table 1.Tab-delimited Table 2.
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:0094-8276
1944-8007
DOI:10.1029/2011GL049999