L. W. Kamp scite author profile

It has proved possible to track thermal emission from a number of volcanic centers over several orbits to enable individual eruptions to be observed as they start, build, and wane. This has yielded new information about the magma temperature, eruption style, and evolution of these volcanic centers. We show how, with sufficient temporal and wavelength coverage, it is possible to constrain style of eruption from the evolution of thermal emission spectra at two different hot spots, initially using a two-temperature fit to NIMS data to determine temperatures, areas, and total thermal output. Using a silicate cooling model [Davies, 1996], we show that it is possible to constrain magma temperature from the combined NIMS-SSI data and to determine rates of areal coverage. Finally, the eruption styles are compared with their terrestrial counterparts. 2.Galileo NIMS and SSI Observations of Io

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Exogenic controls on sulfuric acid hydrate production at the surface of Europa

Dalton

Cassidy

Paranicas

et al. 2013

Planetary and Space Science

125

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Galileo Infrared Imaging Spectroscopy Measurements at Venus

Carlson

Baines

Encrenaz

et al. 1991

Science

161

121

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During the 1990 Galileo Venus flyby, the Near Infaied Mapping Spectrometer investigated the night-side atmosphere of Venus in the spectral range 0.7 to 5.2 micrometers. Multispectral images at high spatial resolution indicate substanmial cloud opacity variations in the lower cloud levels, centered at 50 kilometers altitude. Zonal and meridional winds were derived for this level and are consistent with motion of the upper branch of a Hadley cell. Northern and southern hemisphere clouds appear to be markedly different. Spectral profiles were used to derive lower atmosphere abundances of water vapor and other species.

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MIRO: Microwave Instrument for Rosetta Orbiter

et al. 2006

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International audienceThe European Space Agency Rosetta Spacecraft, launched on March 2, 2004 toward Comet 67P/Churyumov-Gerasimenko, carries a relatively small and lightweight millimeter-submillimeter spectrometer instrument, the first of its kind launched into deep space. The instrument will be used to study the evolution of outgassing water and other molecules from the target comet as a function of heliocentric distance. During flybys of the asteroids (2867) Steins and (21) Lutetia in 2008 and 2010 respectively, the instrument will measure thermal emission and search for water vapor in the vicinity of these asteroids. The instrument, named MIRO (Microwave Instrument for the Rosetta Orbiter), consists of a 30-cm diameter, offset parabolic reflector telescope followed by two heterodyne receivers. Center-band operating frequencies of the receivers are near 190 GHz (1.6 mm) and 562 GHz (0.5 mm). Broadband continuum channels are implemented in both frequency bands for the measurement of near surface temperatures and temperature gradients in Comet 67P/Churyumov-Gerasimenko and the asteroids (2867) Steins and (21) Lutetia. A 4096 channel CTS (Chirp Transform Spectrometer) spectrometer having 180 MHz total bandwidth and 44 kHz resolution is, in addition to the continuum channel, connected to the submillimeter receiver. The submillimeter radiometer/spectrometer is fixed tuned to measure four volatile species – CO, CH3OH, NH3 and three, oxygen-related isotopologues of water, H2 16O, H2 17O and H2 18O. The basic quantities measured with the MIRO instrument are surface temperature, gas production rates and relative abundances, and velocity and excitation temperature of each species, along with their spatial and temporal variability. This paper provides a short discussion of the scientific objectives of the investigation, and a detailed discussion of the MIRO instrument system

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L. W. Kamp

Magnetospheric ion sputtering and water ice grain size at Europa

Thermal signature, eruption style, and eruption evolution at Pele and Pillan on Io

Exogenic controls on sulfuric acid hydrate production at the surface of Europa

Galileo Infrared Imaging Spectroscopy Measurements at Venus

MIRO: Microwave Instrument for Rosetta Orbiter

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