Imaging Asteroid 4 Vesta using the framing camera

The Framing Camera (FC) onboard the Dawn spacecraft serves a dual purpose. Next to its central role as a prime science instrument it is also used for the complex navigation of the ion drive spacecraft. The CCD detector with 1024 by 1024 pixels provides the stability for a multiyear mission and its h...

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Main Authors: Keller, H. Uwe, Nathues, Andreas, Coradini, Angioletta, Jaumann, Ralf, Jorda, Laurent, Li, Jian-Yang, Mittlefehldt, David W., Mottola, Stefano, Raymond, C.A., Schröder, Stefan E.
Format: Conference Object
Language:unknown
Published: 2011
Subjects:
Planetengeologie
North Pole
Online Access:https://elib.dlr.de/70786/
id ftdlr:oai:elib.dlr.de:70786
record_format openpolar
spelling ftdlr:oai:elib.dlr.de:70786 2024-05-19T07:45:42+00:00 Imaging Asteroid 4 Vesta using the framing camera Keller, H. Uwe Nathues, Andreas Coradini, Angioletta Jaumann, Ralf Jorda, Laurent Li, Jian-Yang Mittlefehldt, David W. Mottola, Stefano Raymond, C.A. Schröder, Stefan E. 2011 https://elib.dlr.de/70786/ unknown Keller, H. Uwe und Nathues, Andreas und Coradini, Angioletta und Jaumann, Ralf und Jorda, Laurent und Li, Jian-Yang und Mittlefehldt, David W. und Mottola, Stefano und Raymond, C.A. und Schröder, Stefan E. (2011) Imaging Asteroid 4 Vesta using the framing camera. GSA Annual Meeting, 2011-10-09 - 2011-10-12, Minneapolis, USA. Planetengeologie Konferenzbeitrag NonPeerReviewed 2011 ftdlr 2024-04-25T00:20:14Z The Framing Camera (FC) onboard the Dawn spacecraft serves a dual purpose. Next to its central role as a prime science instrument it is also used for the complex navigation of the ion drive spacecraft. The CCD detector with 1024 by 1024 pixels provides the stability for a multiyear mission and its high requirements of photometric accuracy over the wavelength band from 400 to 1000 nm covered by 7 band-pass filters. Vesta will be observed from 3 orbit stages with image scales of 227, 63, and 17 m/px, respectively. The mapping of Vesta’s surface with medium resolution will be only completed during the exit phase when the north pole will be illuminated. A detailed pointing strategy will cover the surface at least twice at similar phase angles to provide stereo views for reconstruction of the topography. During approach the phase function of Vesta was determined over a range of angles not accessible from earth. This is the first step in deriving the photometric function of the surface. Combining the topography based on stereo tie points with the photometry in an iterative procedure will disclose details of the surface morphology at considerably smaller scales than the pixel scale. The 7 color filters are well positioned to provide information on the spectral slope in the visible, the depth of the strong pyroxene absorption band, and their variability over the surface. Cross calibration with the VIR spectrometer that extends into the near IR will provide detailed maps of Vesta’s surface mineralogy and physical properties. Georeferncing all these observation will result in a coherent and unique data set. During Dawn’s approach and capture FC has already demonstrated its performance. The strong variegation observed by the Hubble Space Telescope can now be correlated with surface units and features. We will report on results obtained from images taken during survey mode covering the whole illuminated surface. Vesta is a planet-like differentiated body, but its surface gravity and escape velocity are comparable to those ... Conference Object North Pole German Aerospace Center: elib - DLR electronic library
institution Open Polar
collection German Aerospace Center: elib - DLR electronic library
op_collection_id ftdlr
language unknown
topic Planetengeologie
spellingShingle Planetengeologie
Keller, H. Uwe
Nathues, Andreas
Coradini, Angioletta
Jaumann, Ralf
Jorda, Laurent
Li, Jian-Yang
Mittlefehldt, David W.
Mottola, Stefano
Raymond, C.A.
Schröder, Stefan E.
Imaging Asteroid 4 Vesta using the framing camera
topic_facet Planetengeologie
description The Framing Camera (FC) onboard the Dawn spacecraft serves a dual purpose. Next to its central role as a prime science instrument it is also used for the complex navigation of the ion drive spacecraft. The CCD detector with 1024 by 1024 pixels provides the stability for a multiyear mission and its high requirements of photometric accuracy over the wavelength band from 400 to 1000 nm covered by 7 band-pass filters. Vesta will be observed from 3 orbit stages with image scales of 227, 63, and 17 m/px, respectively. The mapping of Vesta’s surface with medium resolution will be only completed during the exit phase when the north pole will be illuminated. A detailed pointing strategy will cover the surface at least twice at similar phase angles to provide stereo views for reconstruction of the topography. During approach the phase function of Vesta was determined over a range of angles not accessible from earth. This is the first step in deriving the photometric function of the surface. Combining the topography based on stereo tie points with the photometry in an iterative procedure will disclose details of the surface morphology at considerably smaller scales than the pixel scale. The 7 color filters are well positioned to provide information on the spectral slope in the visible, the depth of the strong pyroxene absorption band, and their variability over the surface. Cross calibration with the VIR spectrometer that extends into the near IR will provide detailed maps of Vesta’s surface mineralogy and physical properties. Georeferncing all these observation will result in a coherent and unique data set. During Dawn’s approach and capture FC has already demonstrated its performance. The strong variegation observed by the Hubble Space Telescope can now be correlated with surface units and features. We will report on results obtained from images taken during survey mode covering the whole illuminated surface. Vesta is a planet-like differentiated body, but its surface gravity and escape velocity are comparable to those ...
format Conference Object
author Keller, H. Uwe
Nathues, Andreas
Coradini, Angioletta
Jaumann, Ralf
Jorda, Laurent
Li, Jian-Yang
Mittlefehldt, David W.
Mottola, Stefano
Raymond, C.A.
Schröder, Stefan E.
author_facet Keller, H. Uwe
Nathues, Andreas
Coradini, Angioletta
Jaumann, Ralf
Jorda, Laurent
Li, Jian-Yang
Mittlefehldt, David W.
Mottola, Stefano
Raymond, C.A.
Schröder, Stefan E.
author_sort Keller, H. Uwe
title Imaging Asteroid 4 Vesta using the framing camera
title_short Imaging Asteroid 4 Vesta using the framing camera
title_full Imaging Asteroid 4 Vesta using the framing camera
title_fullStr Imaging Asteroid 4 Vesta using the framing camera
title_full_unstemmed Imaging Asteroid 4 Vesta using the framing camera
title_sort imaging asteroid 4 vesta using the framing camera
publishDate 2011
url https://elib.dlr.de/70786/
genre North Pole
genre_facet North Pole
op_relation Keller, H. Uwe und Nathues, Andreas und Coradini, Angioletta und Jaumann, Ralf und Jorda, Laurent und Li, Jian-Yang und Mittlefehldt, David W. und Mottola, Stefano und Raymond, C.A. und Schröder, Stefan E. (2011) Imaging Asteroid 4 Vesta using the framing camera. GSA Annual Meeting, 2011-10-09 - 2011-10-12, Minneapolis, USA.
_version_ 1799485801654910976

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