SURFACE ALBEDO and SPECTRAL VARIABILITY of CERES

Jian Yang Li; Vishnu Reddy; Andreas Nathues; Lucille Le Corre; Matthew R M Izawa; Edward A. Cloutis; Mark V. Sykes; Uri Carsenty; Julie C. Castillo-Rogez; Martin Hoffmann; Ralf Jaumann; Katrin Krohn; Stefano Mottola; Thomas H. Prettyman; Michael Schaefer; Paul Schenk; Stefan E. Schröder; David Williams; David E. Smith; Maria T. Zuber; Alexander S. Konopliv; Ryan S. Park; Carol A. Raymond; Christopher T. Russell

doi:10.3847/2041-8205/817/2/L22

SURFACE ALBEDO and SPECTRAL VARIABILITY of CERES

Jian Yang Li, Vishnu Reddy, Andreas Nathues, Lucille Le Corre, Matthew R M Izawa, Edward A. Cloutis, Mark V. Sykes, Uri Carsenty, Julie C. Castillo-Rogez, Martin Hoffmann, Ralf Jaumann, Katrin Krohn, Stefano Mottola, Thomas H. Prettyman, Michael Schaefer, Paul Schenk, Stefan E. Schröder, David Williams, David E. Smith, Maria T. ZuberAlexander S. Konopliv, Ryan S. Park, Carol A. Raymond, Christopher T. Russell

Earth and Space Exploration, School of (SESE)

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

Previous observations suggested that Ceres has active, but possibly sporadic, water outgassing as well as possibly varying spectral characteristics over a timescale of months. We used all available data of Ceres collected in the past three decades from the ground and the Hubble Space Telescope, as well as the newly acquired images by the Dawn Framing Camera, to search for spectral and albedo variability on Ceres, on both a global scale and in local regions, particularly the bright spots inside the Occator crater, over timescales of a few months to decades. Our analysis has placed an upper limit on the possible temporal albedo variation on Ceres. Sporadic water vapor venting, or any possibly ongoing activity on Ceres, is not significant enough to change the albedo or the area of the bright features in the Occator crater by >15%, or the global albedo by >3% over the various timescales that we searched. Recently reported spectral slope variations can be explained by changing Sun-Ceres-Earth geometry. The active area on Ceres is less than 1 km², too small to cause global albedo and spectral variations detectable in our data. Impact ejecta due to impacting projectiles of tens of meters in size like those known to cause observable changes to the surface albedo on Asteroid Scheila cannot cause detectable albedo change on Ceres due to its relatively large size and strong gravity. The water vapor activity on Ceres is independent of Ceres' heliocentric distance, ruling out the possibility of the comet-like sublimation process as a possible mechanism driving the activity.

Original language	English (US)
Article number	L22
Journal	Astrophysical Journal Letters
Volume	817
Issue number	2
DOIs	https://doi.org/10.3847/2041-8205/817/2/L22
State	Published - Feb 1 2016

Keywords

methods: observational
minor planets, asteroids: individual (1 Ceres)
space vehicles
techniques: image processing
techniques: photometric

ASJC Scopus subject areas

Astronomy and Astrophysics
Space and Planetary Science

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10.3847/2041-8205/817/2/L22

Cite this

Li, J. Y., Reddy, V., Nathues, A., Corre, L. L., Izawa, M. R. M., Cloutis, E. A., Sykes, M. V., Carsenty, U., Castillo-Rogez, J. C., Hoffmann, M., Jaumann, R., Krohn, K., Mottola, S., Prettyman, T. H., Schaefer, M., Schenk, P., Schröder, S. E., Williams, D., Smith, D. E., ... Russell, C. T. (2016). SURFACE ALBEDO and SPECTRAL VARIABILITY of CERES. Astrophysical Journal Letters, 817(2), Article L22. https://doi.org/10.3847/2041-8205/817/2/L22

Li, JY, Reddy, V, Nathues, A, Corre, LL, Izawa, MRM, Cloutis, EA, Sykes, MV, Carsenty, U, Castillo-Rogez, JC, Hoffmann, M, Jaumann, R, Krohn, K, Mottola, S, Prettyman, TH, Schaefer, M, Schenk, P, Schröder, SE, Williams, D, Smith, DE, Zuber, MT, Konopliv, AS, Park, RS, Raymond, CA & Russell, CT 2016, 'SURFACE ALBEDO and SPECTRAL VARIABILITY of CERES', Astrophysical Journal Letters, vol. 817, no. 2, L22. https://doi.org/10.3847/2041-8205/817/2/L22

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title = "SURFACE ALBEDO and SPECTRAL VARIABILITY of CERES",

abstract = "Previous observations suggested that Ceres has active, but possibly sporadic, water outgassing as well as possibly varying spectral characteristics over a timescale of months. We used all available data of Ceres collected in the past three decades from the ground and the Hubble Space Telescope, as well as the newly acquired images by the Dawn Framing Camera, to search for spectral and albedo variability on Ceres, on both a global scale and in local regions, particularly the bright spots inside the Occator crater, over timescales of a few months to decades. Our analysis has placed an upper limit on the possible temporal albedo variation on Ceres. Sporadic water vapor venting, or any possibly ongoing activity on Ceres, is not significant enough to change the albedo or the area of the bright features in the Occator crater by >15%, or the global albedo by >3% over the various timescales that we searched. Recently reported spectral slope variations can be explained by changing Sun-Ceres-Earth geometry. The active area on Ceres is less than 1 km2, too small to cause global albedo and spectral variations detectable in our data. Impact ejecta due to impacting projectiles of tens of meters in size like those known to cause observable changes to the surface albedo on Asteroid Scheila cannot cause detectable albedo change on Ceres due to its relatively large size and strong gravity. The water vapor activity on Ceres is independent of Ceres' heliocentric distance, ruling out the possibility of the comet-like sublimation process as a possible mechanism driving the activity.",

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author = "Li, {Jian Yang} and Vishnu Reddy and Andreas Nathues and Corre, {Lucille Le} and Izawa, {Matthew R M} and Cloutis, {Edward A.} and Sykes, {Mark V.} and Uri Carsenty and Castillo-Rogez, {Julie C.} and Martin Hoffmann and Ralf Jaumann and Katrin Krohn and Stefano Mottola and Prettyman, {Thomas H.} and Michael Schaefer and Paul Schenk and Schr{\"o}der, {Stefan E.} and David Williams and Smith, {David E.} and Zuber, {Maria T.} and Konopliv, {Alexander S.} and Park, {Ryan S.} and Raymond, {Carol A.} and Russell, {Christopher T.}",

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AU - Li, Jian Yang

AU - Reddy, Vishnu

AU - Nathues, Andreas

AU - Corre, Lucille Le

AU - Izawa, Matthew R M

AU - Cloutis, Edward A.

AU - Sykes, Mark V.

AU - Carsenty, Uri

AU - Castillo-Rogez, Julie C.

AU - Hoffmann, Martin

AU - Jaumann, Ralf

AU - Krohn, Katrin

AU - Mottola, Stefano

AU - Prettyman, Thomas H.

AU - Schaefer, Michael

AU - Schenk, Paul

AU - Schröder, Stefan E.

AU - Williams, David

AU - Smith, David E.

AU - Zuber, Maria T.

AU - Konopliv, Alexander S.

AU - Park, Ryan S.

AU - Raymond, Carol A.

AU - Russell, Christopher T.

PY - 2016/2/1

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N2 - Previous observations suggested that Ceres has active, but possibly sporadic, water outgassing as well as possibly varying spectral characteristics over a timescale of months. We used all available data of Ceres collected in the past three decades from the ground and the Hubble Space Telescope, as well as the newly acquired images by the Dawn Framing Camera, to search for spectral and albedo variability on Ceres, on both a global scale and in local regions, particularly the bright spots inside the Occator crater, over timescales of a few months to decades. Our analysis has placed an upper limit on the possible temporal albedo variation on Ceres. Sporadic water vapor venting, or any possibly ongoing activity on Ceres, is not significant enough to change the albedo or the area of the bright features in the Occator crater by >15%, or the global albedo by >3% over the various timescales that we searched. Recently reported spectral slope variations can be explained by changing Sun-Ceres-Earth geometry. The active area on Ceres is less than 1 km2, too small to cause global albedo and spectral variations detectable in our data. Impact ejecta due to impacting projectiles of tens of meters in size like those known to cause observable changes to the surface albedo on Asteroid Scheila cannot cause detectable albedo change on Ceres due to its relatively large size and strong gravity. The water vapor activity on Ceres is independent of Ceres' heliocentric distance, ruling out the possibility of the comet-like sublimation process as a possible mechanism driving the activity.

AB - Previous observations suggested that Ceres has active, but possibly sporadic, water outgassing as well as possibly varying spectral characteristics over a timescale of months. We used all available data of Ceres collected in the past three decades from the ground and the Hubble Space Telescope, as well as the newly acquired images by the Dawn Framing Camera, to search for spectral and albedo variability on Ceres, on both a global scale and in local regions, particularly the bright spots inside the Occator crater, over timescales of a few months to decades. Our analysis has placed an upper limit on the possible temporal albedo variation on Ceres. Sporadic water vapor venting, or any possibly ongoing activity on Ceres, is not significant enough to change the albedo or the area of the bright features in the Occator crater by >15%, or the global albedo by >3% over the various timescales that we searched. Recently reported spectral slope variations can be explained by changing Sun-Ceres-Earth geometry. The active area on Ceres is less than 1 km2, too small to cause global albedo and spectral variations detectable in our data. Impact ejecta due to impacting projectiles of tens of meters in size like those known to cause observable changes to the surface albedo on Asteroid Scheila cannot cause detectable albedo change on Ceres due to its relatively large size and strong gravity. The water vapor activity on Ceres is independent of Ceres' heliocentric distance, ruling out the possibility of the comet-like sublimation process as a possible mechanism driving the activity.

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KW - minor planets, asteroids: individual (1 Ceres)

KW - space vehicles

KW - techniques: image processing

KW - techniques: photometric

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SURFACE ALBEDO and SPECTRAL VARIABILITY of CERES

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Keywords

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