Exploring the smallest terrestrial planet: Dawn at Vesta

The Dawn mission is designed to map Vesta and Ceres from polar orbit for close to one year each. The ion-propelled Dawn spacecraft is illustrated in Figure 1. Dawn carries a framing camera with clear and color filters, a visible and infrared mapping spectrometer, a gamma ray and neutron spectrometer...

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Main Authors: Russell, C.T., Raymond, C.A., Mase, R.A., Rayman, M.D., Polanskey, C.A., Joy, S.P., Jaumannn, R., McSween, H.Y., Sykes, M.V., McFadden, L.A., Li, J.Y., Tricarico, P., Konopliv, A.S., Asmar, S.W., Zuber, M.T., Smith, D.A., Roatsch, T., Coradini, A., Mastodemos, N., Keller, H.U., Nathues, A., DeSanctis, M.C., Pieters, C.M., Prettyman, T.H., Yingst, R.A., Schenk, P.
Format: Conference Object
Language:German
Published: 2011
Subjects:
Planetengeologie
North Pole
Online Access:https://elib.dlr.de/70759/
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author Russell, C.T.
Raymond, C.A.
Mase, R.A.
Rayman, M.D.
Polanskey, C.A.
Joy, S.P.
Jaumannn, R.
McSween, H.Y.
Sykes, M.V.
McFadden, L.A.
Li, J.Y.
Tricarico, P.
Konopliv, A.S.
Asmar, S.W.
Zuber, M.T.
Smith, D.A.
Roatsch, T.
Coradini, A.
Mastodemos, N.
Keller, H.U.
Nathues, A.
DeSanctis, M.C.
Pieters, C.M.
Prettyman, T.H.
Yingst, R.A.
Schenk, P.
author_facet Russell, C.T.
Raymond, C.A.
Mase, R.A.
Rayman, M.D.
Polanskey, C.A.
Joy, S.P.
Jaumannn, R.
McSween, H.Y.
Sykes, M.V.
McFadden, L.A.
Li, J.Y.
Tricarico, P.
Konopliv, A.S.
Asmar, S.W.
Zuber, M.T.
Smith, D.A.
Roatsch, T.
Coradini, A.
Mastodemos, N.
Keller, H.U.
Nathues, A.
DeSanctis, M.C.
Pieters, C.M.
Prettyman, T.H.
Yingst, R.A.
Schenk, P.
author_sort Russell, C.T.
collection Unknown
description The Dawn mission is designed to map Vesta and Ceres from polar orbit for close to one year each. The ion-propelled Dawn spacecraft is illustrated in Figure 1. Dawn carries a framing camera with clear and color filters, a visible and infrared mapping spectrometer, a gamma ray and neutron spectrometer, and obtains radiometric data on the gravity field. The camera obtains stereo imagery from which a global shape and topography model are derived. The mapping spectrometer determines the mineral composition of the surface and the gamma and neutron spectrometer determines the elemental composition. As Dawn approaches Vesta, as illustrated in Figure 2, it measures the rotational characteristics of the body to determine the orientation of the rotation axis. This in turn determines when solar illumination reaches the north pole and when mapping can be completed. As shown in Figure 3, there are three science orbits: Survey at a radial distance of 3000 km and a period of 69 hr; high-altitude mapping at a radial distance of 950 km and a period of 12.3 hr; and low-altitude mapping at a radius of 465 km and a period of 4 hours. Vesta is the ultimate source of the HED meteorites from which much has been learned about their parent body. By the time of this presentation we will have surveyed the region around Vesta for moons, determined a much more accurate mass and rotation axis for Vesta, and have preliminary information on surface features and composition from the survey orbit.
format Conference Object
genre North Pole
genre_facet North Pole
geographic North Pole
geographic_facet North Pole
id ftdlr:oai:elib.dlr.de:70759
institution Open Polar
language German
op_collection_id ftdlr
op_relation https://elib.dlr.de/70759/1/EPSC-DPS2011-97-3.pdf
Russell, C.T. und Raymond, C.A. und Mase, R.A. und Rayman, M.D. und Polanskey, C.A. und Joy, S.P. und Jaumannn, R. und McSween, H.Y. und Sykes, M.V. und McFadden, L.A. und Li, J.Y. und Tricarico, P. und Konopliv, A.S. und Asmar, S.W. und Zuber, M.T. und Smith, D.A. und Roatsch, T. und Coradini, A. und Mastodemos, N. und Keller, H.U. und Nathues, A. und DeSanctis, M.C. und Pieters, C.M. und Prettyman, T.H. und Yingst, R.A. und Schenk, P. (2011) Exploring the smallest terrestrial planet: Dawn at Vesta. In: EPSC-DPS 2011 (97-3). EPSC-DPS Joint Meeting 2011, 2011-10-03 - 2011-10-07, Nantes, Frankreich.
publishDate 2011
record_format openpolar
spelling ftdlr:oai:elib.dlr.de:70759 2025-06-15T14:43:55+00:00 Exploring the smallest terrestrial planet: Dawn at Vesta Russell, C.T. Raymond, C.A. Mase, R.A. Rayman, M.D. Polanskey, C.A. Joy, S.P. Jaumannn, R. McSween, H.Y. Sykes, M.V. McFadden, L.A. Li, J.Y. Tricarico, P. Konopliv, A.S. Asmar, S.W. Zuber, M.T. Smith, D.A. Roatsch, T. Coradini, A. Mastodemos, N. Keller, H.U. Nathues, A. DeSanctis, M.C. Pieters, C.M. Prettyman, T.H. Yingst, R.A. Schenk, P. 2011 application/pdf https://elib.dlr.de/70759/ de ger https://elib.dlr.de/70759/1/EPSC-DPS2011-97-3.pdf Russell, C.T. und Raymond, C.A. und Mase, R.A. und Rayman, M.D. und Polanskey, C.A. und Joy, S.P. und Jaumannn, R. und McSween, H.Y. und Sykes, M.V. und McFadden, L.A. und Li, J.Y. und Tricarico, P. und Konopliv, A.S. und Asmar, S.W. und Zuber, M.T. und Smith, D.A. und Roatsch, T. und Coradini, A. und Mastodemos, N. und Keller, H.U. und Nathues, A. und DeSanctis, M.C. und Pieters, C.M. und Prettyman, T.H. und Yingst, R.A. und Schenk, P. (2011) Exploring the smallest terrestrial planet: Dawn at Vesta. In: EPSC-DPS 2011 (97-3). EPSC-DPS Joint Meeting 2011, 2011-10-03 - 2011-10-07, Nantes, Frankreich. Planetengeologie Konferenzbeitrag NonPeerReviewed 2011 ftdlr 2025-06-04T04:58:03Z The Dawn mission is designed to map Vesta and Ceres from polar orbit for close to one year each. The ion-propelled Dawn spacecraft is illustrated in Figure 1. Dawn carries a framing camera with clear and color filters, a visible and infrared mapping spectrometer, a gamma ray and neutron spectrometer, and obtains radiometric data on the gravity field. The camera obtains stereo imagery from which a global shape and topography model are derived. The mapping spectrometer determines the mineral composition of the surface and the gamma and neutron spectrometer determines the elemental composition. As Dawn approaches Vesta, as illustrated in Figure 2, it measures the rotational characteristics of the body to determine the orientation of the rotation axis. This in turn determines when solar illumination reaches the north pole and when mapping can be completed. As shown in Figure 3, there are three science orbits: Survey at a radial distance of 3000 km and a period of 69 hr; high-altitude mapping at a radial distance of 950 km and a period of 12.3 hr; and low-altitude mapping at a radius of 465 km and a period of 4 hours. Vesta is the ultimate source of the HED meteorites from which much has been learned about their parent body. By the time of this presentation we will have surveyed the region around Vesta for moons, determined a much more accurate mass and rotation axis for Vesta, and have preliminary information on surface features and composition from the survey orbit. Conference Object North Pole Unknown North Pole
spellingShingle Planetengeologie
Russell, C.T.
Raymond, C.A.
Mase, R.A.
Rayman, M.D.
Polanskey, C.A.
Joy, S.P.
Jaumannn, R.
McSween, H.Y.
Sykes, M.V.
McFadden, L.A.
Li, J.Y.
Tricarico, P.
Konopliv, A.S.
Asmar, S.W.
Zuber, M.T.
Smith, D.A.
Roatsch, T.
Coradini, A.
Mastodemos, N.
Keller, H.U.
Nathues, A.
DeSanctis, M.C.
Pieters, C.M.
Prettyman, T.H.
Yingst, R.A.
Schenk, P.
Exploring the smallest terrestrial planet: Dawn at Vesta
title Exploring the smallest terrestrial planet: Dawn at Vesta
title_full Exploring the smallest terrestrial planet: Dawn at Vesta
title_fullStr Exploring the smallest terrestrial planet: Dawn at Vesta
title_full_unstemmed Exploring the smallest terrestrial planet: Dawn at Vesta
title_short Exploring the smallest terrestrial planet: Dawn at Vesta
title_sort exploring the smallest terrestrial planet: dawn at vesta
topic Planetengeologie
topic_facet Planetengeologie
url https://elib.dlr.de/70759/

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