Distribution of icy particles across Enceladus' surface as derived from Cassini-VIMS measurements

R. Jaumann; K. Stephan; G. B. Hansen; R. N. Clark; B. J. Buratti; R. H. Brown; K. H. Baines; S.F. Newman; G. Bellucci; G. Filacchione; A. Coradini; D. P. Cruikshank; C.A. Griffith; C. A. Hibbitts; T. B. McCord; R.M. Nelson; P. D. Nicholson; Christophe Sotin; R. Wagner

doi:10.1016/j.icarus.2007.09.013

Distribution of icy particles across Enceladus' surface as derived from Cassini-VIMS measurements

Icarus

By: R. Jaumann, K. Stephan, G. B. Hansen, R. N. Clark, B. J. Buratti, R. H. Brown, K. H. Baines, S.F. Newman, G. Bellucci, G. Filacchione, A. Coradini, D. P. Cruikshank, C.A. Griffith, C. A. Hibbitts, T. B. McCord, R.M. Nelson, P. D. Nicholson, Christophe Sotin, and R. Wagner

https://doi.org/10.1016/j.icarus.2007.09.013

Metrics

66

Crossref references

Web analytics dashboard Metrics definitions

Links

More information: Publisher Index Page (via DOI)
Open Access Version: External Repository
Download citation as: RIS | Dublin Core

Abstract

The surface of Enceladus consists almost completely of water ice. As the band depths of water ice absorptions are sensitive to the size of particles, absorptions can be used to map variations of icy particles across the surface. The Visual and Infrared Mapping Spectrometer (VIMS) observed Enceladus with a high spatial resolution during three Cassini flybys in 2005 (orbits EN 003, EN 004 and EN 011). Based on these data we measured the band depths of water ice absorptions at 1.04, 1.25, 1.5, and 2 ??m. These band depths were compared to water ice models that represent theoretically calculated reflectance spectra for a range of particle diameters between 2 ??m and 1 mm. The agreement between the experimental (VIMS) and model values supports the assumption that pure water ice characterizes the surface of Enceladus and therefore that variations in band depth correspond to variations in water ice particle diameters. Our measurements show that the particle diameter of water ice increases toward younger tectonically altered surface units with the largest particles exposed in relatively "fresh" surface material. The smallest particles were generally found in old densely cratered terrains. The largest particles (???0.2 mm) are concentrated in the so called "tiger stripes" at the south pole. In general, the particle diameters are strongly correlated with geologic features and surface ages, indicating a stratigraphic evolution of the surface that is caused by cryovolcanic resurfacing and impact gardening. ?? 2007 Elsevier Inc. All rights reserved.

Suggested Citation

Jaumann, R., Stephan, K., Hansen, G.B., Clark, R.N., Buratti, B.J., Brown, R.H., Baines, K.H., Newman, S., Bellucci, G., Filacchione, G., Coradini, A., Cruikshank, D.P., Griffith, C., Hibbitts, C.A., McCord, T.B., Nelson, R., Nicholson, P.D., Sotin, C., Wagner, R., 2008, Distribution of icy particles across Enceladus' surface as derived from Cassini-VIMS measurements: Icarus, v. 193, no. 2, p. 407-419, https://doi.org/10.1016/j.icarus.2007.09.013.

Additional publication details
Publication type	Article
Publication Subtype	Journal Article
Title	Distribution of icy particles across Enceladus' surface as derived from Cassini-VIMS measurements
Series title	Icarus
DOI	10.1016/j.icarus.2007.09.013
Volume	193
Issue	2
Year Published	2008
Language	English
Larger Work Type	Article
Larger Work Subtype	Journal Article
Larger Work Title	Icarus
First page	407
Last page	419