Your search keyword '"Martin Hoffmann"' showing total 9 results

1. Geologic mapping of the Ac-2 Coniraya quadrangle of Ceres from NASA's Dawn mission: Implications for a heterogeneously composed crust

Author

Martin Hoffmann, M. Schäfer, Scott C. Mest, Jennifer E.C. Scully, Jan Hendrik Pasckert, Ottaviano Ruesch, Debra Buczkowski, Harald Hiesinger, Andreas Nathues, M. C. De Sanctis, Nico Schmedemann, David A. Williams, T. Roatsch, Ralf Jaumann, Andrea Naß, Frank Preusker, Thomas Kneissl, Christopher T. Russell, and C. A. Raymond

Subjects

010504 meteorology & atmospheric sciences, Dwarf planet, Astronomy and Astrophysics, Terrain, Crust, Geologic map, 01 natural sciences, Astrobiology, Northern latitude, Paleontology, Quadrangle, Impact crater, Space and Planetary Science, 0103 physical sciences, Geological processes, Longitude, 010303 astronomy & astrophysics, Geology, Asteroid Ceres, Cratering, 0105 earth and related environmental sciences

Abstract

Since its arrival at Ceres, DAWNs Framing Camera has been imaging the dwarf planet at different altitudes, using 8 different filters. Based on these images, global clear filter mosaics, digital terrain models, and global color mosaics were produced. These datasets are basis for the derived photogeologic map of the Ac2 Coniraya quadrangle, located between 0° and 90° eastern longitude and between 20° and 40° northern latitude. Crater size frequency distribution (CSFD) measurements have been applied to derive the stratigraphic history of the identified geologic units in the Ac2 Coniraya quadrangle. Based on these investigations, we found that the Ac2 Coniraya quadrangle shows evidence for a long geologic history lasting over 3.5 Ga. Most of the identified geologic units are related to impact cratering at different periods of time. While the oldest unit identified in the Ac2 Coniraya quadrangle, the cratered terrain, shows an absolute model age (AMA) of 3.3 to 3.5 Ga, the youngest units, including fresh impact craters and lobate flows, show AMAs of < 100 Ma. The large number of different sized impact craters excavated a variety of materials with different colors and albedo, indicative of a heterogeneous crustal composition, including water or volatiles. Pits identified at Ikapati craters smooth deposits might further indicate the presence of volatiles in the subsurface. Furthermore, our mapping of the Ac2 Coniraya quadrangle shows that possible H 2 O ice in the crust is heterogeneously distributed, as lobate flows, bright spots, and pits are only found at certain locations, related to relatively fresh impact craters.

Published

2018

2. Effects of viewing geometry, aggregation state, and particle size on reflectance spectra of the Murchison CM2 chondrite deconvolved to Dawn FC band passes

Author

Paul Mann, Tanja Schäfer, Guneshwar Thangjam, Martin Hoffmann, M. Schäfer, Kurt Mengel, Valerie B. Pietrasz, Kimberly T. Tait, Andreas Nathues, Daniel M. Applin, Edward A. Cloutis, and Matthew R.M. Izawa

Subjects

Murchison meteorite, Materials science, 010504 meteorology & atmospheric sciences, Astronomy and Astrophysics, Geometry, 01 natural sciences, Spectral line, Grain size, Space and Planetary Science, Chondrite, Carbonaceous chondrite, 0103 physical sciences, Spectral slope, Astrophysics::Earth and Planetary Astrophysics, Particle size, Spectroscopy, 010303 astronomy & astrophysics, 0105 earth and related environmental sciences

Abstract

Several current and soon-to-launch missions will investigate ‘dark’ asteroids, whose spectra have few weak or no distinct spectral features. Some carbonaceous chondrites, particularly the CI and CM groups, are reasonable material analogues for many dark asteroid surfaces. In addition to compositional variations, many non-compositional effects, including viewing geometry, surface particle size and particle sorting, can influence reflectance spectra, potentially complicating mineralogical interpretation of such data from remote surfaces. We have carried out an investigation of the effects of phase angle, particle size, aggregation state, and intra-sample heterogeneity on the reflectance spectra (0.4–1.0 μm) of the Murchison CM2 carbonaceous chondrite, deconvolved to Dawn Framing Camera (FC) band passes. This study was motivated by the desire to derive information about the surface of Ceres from Dawn FC data. Key spectral parameters derived from the FC multispectral data include various two-band reflectance ratios as well as three-band ratios that have been derived for mineralogical analysis. Phase angle effects include increased visible slope with increasing phase angle, a trend that may reverse at very high phase angles. Fine-grained particles exert a strong influence on spectral properties relative to their volumetric proportion. Grain size variation effects include a decrease in spectral contrast and increased visible spectral slope with decreasing grain size. Intra-sample heterogeneity, while spectrally detectable, is of relatively limited magnitude.

Published

2016

3. Three-dimensional spectral analysis of compositional heterogeneity at Arruntia crater on (4) Vesta using Dawn FC

Author

Tanja Schäfer, Kurt Mengel, Paul Mann, M. Schäfer, Guneshwar Thangjam, Andreas Nathues, Christian Müller, Edward A. Cloutis, Martin Hoffmann, and Thomas Platz

Subjects

Earth and Planetary Astrophysics (astro-ph.EP), Diogenite, Olivine, 010504 meteorology & atmospheric sciences, Pixel, FOS: Physical sciences, Mineralogy, Astronomy and Astrophysics, 15. Life on land, engineering.material, Parameter space, 01 natural sciences, Spectral line, Impact crater, 13. Climate action, Space and Planetary Science, Planet, 0103 physical sciences, engineering, Spectroscopy, 010303 astronomy & astrophysics, Geology, Astrophysics - Earth and Planetary Astrophysics, 0105 earth and related environmental sciences, Remote sensing

Abstract

We introduce an innovative three-dimensional spectral approach (three band parameter space with polyhedrons) that can be used for both qualitative and quantitative analyses improving the characterization of surface heterogeneity of (4) Vesta. It is an advanced and more robust methodology compared to the standard two-dimensional spectral approach (two band parameter space). The Dawn Framing Camera (FC) color data obtained during High Altitude Mapping Orbit (resolution ~ 60 m/pixel) is used. The main focus is on the howardite-eucrite-diogenite (HED) lithologies containing carbonaceous chondritic material, olivine, and impact-melt. The archived spectra of HEDs and their mixtures, from RELAB, HOSERLab and USGS databases as well as our laboratory-measured spectra are used for this study. Three-dimensional convex polyhedrons are defined using computed band parameter values of laboratory spectra. Polyhedrons based on the parameters of Band Tilt (R0.92{\mu}m/R0.96{\mu}m), Mid Ratio ((R0.75{\mu}m/R0.83{\mu}m)/(R0.83{\mu}m/R0.92{\mu}m)) and reflectance at 0.55 {\mu}m (R0.55{\mu}m) are chosen for the present analysis. An algorithm in IDL programming language is employed to assign FC data points to the respective polyhedrons. The Arruntia region in the northern hemisphere of Vesta is selected for a case study because of its geological and mineralogical importance. We observe that this region is eucrite-dominated howarditic in composition. The extent of olivine-rich exposures within an area of 2.5 crater radii is ~ 12% larger than the previous finding (Thangjam et al., 2014). Lithologies of nearly pure CM2-chondrite, olivine, glass, and diogenite are not found in this region. Our spectral approach can be extended to the entire Vestan surface to study the heterogeneous surface composition and its geology., Comment: manuscript accepted for publication (Icarus/YICAR11819)

Published

2016

4. Spectral parameters for Dawn FC color data: Carbonaceous chondrites and aqueous alteration products as potential cerean analog materials

Author

Andreas Nathues, Edward A. Cloutis, M. Schäfer, Tanja Schäfer, Martin Hoffmann, Kurt Mengel, and Matthew R.M. Izawa

Subjects

Materials science, 010504 meteorology & atmospheric sciences, Brucite, Dwarf planet, Mineralogy, Astronomy and Astrophysics, engineering.material, 01 natural sciences, Spectral line, Astrobiology, Meteorite, Impact crater, Space and Planetary Science, Chondrite, Carbonaceous chondrite, 0103 physical sciences, engineering, Spectroscopy, 010303 astronomy & astrophysics, 0105 earth and related environmental sciences

Abstract

We identified a set of spectral parameters based on Dawn Framing Camera (FC) bandpasses, covering the wavelength range 0.4–1.0 μm, for mineralogical mapping of potential chondritic material and aqueous alteration products on dwarf planet Ceres. Our parameters are inferred from laboratory spectra of well-described and clearly classified carbonaceous chondrites representative for a dark component. We additionally investigated the FC signatures of candidate bright materials including carbonates, sulfates and hydroxide (brucite), which can possibly be exposed on the cerean surface by impact craters or plume activity. Several materials mineralogically related to carbonaceous chondrites, including pure ferromagnesian phyllosilicates, and serpentinites were also investigated. We tested the potential of the derived FC parameters for distinguishing between different carbonaceous chondritic materials, and between other plausible cerean surface materials. We found that the major carbonaceous chondrite groups (CM, CO, CV, CK, and CR) are distinguishable using the FC filter ratios 0.56/0.44 μm and 0.83/0.97 μm. The absorption bands of Fe-bearing phyllosilicates at 0.7 and 0.9 μm in terrestrial samples and CM carbonaceous chondrites can be detected by a combination of FC band parameters using the filters at 0.65, 0.75, 0.83, 0.92 and 0.97 μm. This set of parameters serves as a basis to identify and distinguish different lithologies on the cerean surface by FC multispectral data.

Published

2016

5. Exogenic olivine on Vesta from Dawn Framing Camera color data

Author

Joachim Ripken, Tanja Schäfer, Vishnu Reddy, M. Schäfer, Edward A. Cloutis, Andreas Nathues, I. Hall, P. Gutierrez-Marques, Holger Sierks, Guneshwar Thangjam, Irene Büttner, Martin Hoffmann, Ulrich R. Christensen, Kurt Mengel, Christopher T. Russell, Jean-Baptiste Vincent, and L. Le Corre

Subjects

Olivine, Lithology, Dwarf planet, Astronomy and Astrophysics, engineering.material, Astrobiology, Impact crater, Meteorite, Space and Planetary Science, Asteroid, Planet, engineering, Ejecta, Geology

Abstract

In this paper we present the results of a global survey of olivine-rich lithologies on (4) Vesta. We investigated Dawn Framing Camera (FC) High Altitude Mapping Orbit (HAMO) color cubes (∼60 m/pixel resolution) by using a method described in Thangjam et al. (Thangjam, G., Nathues, A., Mengel, K., Hoffmann, M., Schafer, M., Reddy, V., Cloutis, E.A., Christensen, U., Sierks, H., Le Corre, L., Vincent, J.-B, Russell, C.T. [2014b]. Meteorit. Planet. Sci. arXiv:1408.4687 [astro-ph.EP]). In total we identified 15 impact craters exhibiting olivine-rich (>40 wt.% ol) outcrops on their inner walls, some showing olivine-rich material also in their ejecta and floors. Olivine-rich sites are concentrated in the Bellicia, Arruntia and Pomponia region on Vesta’s northern hemisphere. From our multi-color and stratigraphic analysis, we conclude that most, if not all, of the olivine-rich material identified is of exogenic origin, i.e. remnants of A- or/and S-type projectiles. The olivine-rich lithologies in the north are possibly ejecta of the ∼90 km diameter Albana crater. We cannot draw a final conclusion on their relative stratigraphic succession, but it seems that the dark material (Nathues, A., Hoffmann, M., Cloutis, E.A., Schafer, M., Reddy, V., Christensen, U., Sierks, H., Thangjam, G.S., Le Corre, L., Mengel, K., Vincent, J.-B., Russell, C.T., Prettyman, T., Schmedemann, N., Kneissl, T., Raymond, C., Gutierrez-Marques, P., Hall, I. Buttner, I. [2014b]. Icarus (239, 222--237)) and the olivine-rich lithologies are of a similar age. The origin of some potential olivine-rich sites in the Rheasilvia basin and at crater Portia are ambiguous, i.e. these are either of endogenic or exogenic origin. However, the small number and size of these sites led us to conclude that olivine-rich mantle material, containing more than 40 wt.% of olivine, is basically absent on the present surface of Vesta. In combination with recent impact models of Veneneia and Rheasilvia (Clenet, H., Jutzi, M., Barrat, J.-A., Gillet, Ph. [2014]. Lunar Planet Sci. 45, #1349; Jutzi, M., Asphaug, E., Gillet, P., Barrat, J.-A., Benz, W. [2013]. Nature 494, 207–210), which predict an excavation depth of up to 80 km, we are confident that the crust–mantle depth is significantly deeper than predicted by most evolution models (30 km; Mittlefehldt, D.W. [2014]. Asteroid 4 Vesta: A Fully Differentiated Dwarf Planet. NASA Technical Reports Server (20140004857.pdf)) or, alternatively, the olivine-content of the (upper) mantle is lower than our detection limit, which would lead to the conclusion that Vesta’s parent material was already depleted in olivine compared to CI meteorites.

Published

2015

6. Imprint of the Rheasilvia impact on Vesta – Geologic mapping of quadrangles Gegania and Lucaria

Author

Vishnu Reddy, Andreas Nathues, Jennifer E.C. Scully, Christopher T. Russell, Tanja Schäfer, Katrin Krohn, David W. Mittlefehldt, L. Le Corre, David A. Williams, R. Aileen Yingst, W. Brent Garry, Thomas Kneissl, Jian-Yang Li, Nico Schmedemann, Guneshwar Thangjam, Debra Buczkowski, M. Schäfer, Robert Gaskell, and Martin Hoffmann

Subjects

Basalt, Paleontology, Tectonics, Quadrangle, Impact crater, Space and Planetary Science, Asteroid, Astronomy and Astrophysics, Ejecta, Geologic map, Digital elevation model, Geology, Astrobiology

Abstract

We produced two 1:250,000 scale geologic maps of the adjacent quadrangles Av-6 Gegania and Av-7 Lucaria, located in the equatorial region of (4) Vesta (0–144°E, 22°S to 22°N). The mapping is based on clear and color filter images of the Framing Camera (FC) onboard the Dawn spacecraft, which has captured the entire illuminated surface of Vesta with high spatial resolution (up to ∼20 m/pixel), and on a digital terrain model derived from FC imagery. Besides the geologic mapping itself, a secondary purpose of this work is to investigate one of the most prominent morphological features on Vesta, namely the aggregation of several giant equatorial troughs termed the Divalia Fossae, most probably formed during the Rheasilvia impact near Vesta’s south pole. The up to 465 km long and 22 km wide troughs show height differences of up to 5 km between adjacent troughs and ridges. Another imprint of the Rheasilvia impact is the >350 km long and ∼250 km wide swath of ejecta crossing quadrangle Av-6 Gegania. This lobe shows a distinct appearance in FC color ratios and a high albedo in FC images, indicating a mineralogical similarity to material typically found within the Rheasilvia basin, in particular composed of diogenite-rich howardites. Almost the entire northern half of the mapping area shows the oldest surface, being dominated by upper crustal basaltic material. To the south, increasingly younger formations related to the Rheasilvia impact occur, either indicated by the troughs formed by Rheasilvia or by the Rheasilvia ejecta itself. Only medium sized impact craters with diameters less than 22 km occur within the two mapped quadrangles. Some of the craters exhibit ejecta blankets and/or distinctly dark or bright ejecta material in ejecta rays outside and exposures within the crater, and mass-wasting deposits down crater slopes, forming the youngest surfaces.

Published

2014

7. Detection of serpentine in exogenic carbonaceous chondrite material on Vesta from Dawn FC data

Author

Holger Sierks, Kurt Mengel, M. Schäfer, Nico Schmedemann, Edward A. Cloutis, Christopher T. Russell, Andreas Nathues, Vishnu Reddy, Thomas H. Prettyman, Carol A. Raymond, Ulrich R. Christensen, Guneshwar Thangjam, Irene Büttner, I. Hall, J. B. Vincent, P. Gutierrez-Marques, L. Le Corre, Martin Hoffmann, and Thomas Kneissl

Subjects

Meteorite, Impact crater, Space and Planetary Science, Chondrite, Asteroid, Carbonaceous chondrite, Imaging spectrometer, Astronomy, Astronomy and Astrophysics, Astrophysics, Ejecta, Geology, Spectral line

Abstract

The Dawn mission’s Framing Camera (FC) observed Asteroid (4) Vesta in 2011 and 2012 using seven color filters and one clear filter from different orbits. In the present paper we analyze recalibrated HAMO color cubes (spatial resolution ∼60 m/pixel) with a focus on dark material (DM). We present a definition of highly concentrated DM based on spectral parameters, subsequently map the DM across the Vestan surface, geologically classify DM, study its spectral properties on global and local scales, and finally, compare the FC in-flight color data with laboratory spectra. We have discovered an absorption band centered at 0.72 μm in localities of DM that show the lowest albedo values by using FC data as well as spectral information from Dawn’s imaging spectrometer VIR. Such localities are contained within impact-exposed outcrops on inner crater walls and ejecta material. Comparisons between spectral FC in-flight data, and laboratory spectra of meteorites and mineral mixtures in the wavelength range 0.4–1.0 μm, revealed that the absorption band can be attributed to the mineral serpentine, which is typically present in CM chondrites. Dark material in its purest form is rare on Vesta’s surface and is distributed globally in a non-uniform manner. Our findings confirm the hypothesis of an exogenic origin of the DM by the infall of carbonaceous chondritic material, likely of CM type. It further confirms the hypothesis that most of the DM was deposited by the Veneneia impact.

Published

2014

8. The steep red spectrum of 1992 AD: An asteroid covered with organic material?

Author

William M. Grundy, Uwe Fink, W. R. Sears, Michael Hicks, and Martin Hoffmann

Subjects

Materials science, Spectrometer, business.industry, Astronomy and Astrophysics, Tholin, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics, Radiation, Silicate, Astronomical spectroscopy, chemistry.chemical_compound, Optics, chemistry, Space and Planetary Science, Asteroid, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Absorption (electromagnetic radiation), business, Astrophysics::Galaxy Astrophysics, Visible spectrum

Abstract

The CCD spectrometer reflection spectrum of 1992 AD is characterized by a very steep and constant red slope between 0.5 and 1.0 micron, without absorption or emission features; this slope is steeper than any currently known solar-system object, and cannot be readily matched with conventional silicate or meteoritic materials. Mixtures of tholins, or residues of organic molecules' bombardment by energetic radiation, are suggested as a match for this spectrum.

Published

1992

9. Impactless asteroid collisions: Opportunities for mass determinations and implications from actual close encounters

Author

Martin Hoffmann

Subjects

Physics, Orbital elements, Space and Planetary Science, Asteroid, Astronomy, Asteroid belt, Astronomy and Astrophysics, Statistical analysis, Astrometry, Orbital mechanics, Celestial mechanics

Abstract

Between 1980 and 1988 fifteen close encounters of asteroids with mutual minimum distances smaller than 0.0100 AU were identified. The encounter of 804 Hispania and 1002 Olbersia may be sufficiently efficient to allow a mass determination of 804 Hispania by astrometric techniques. The distribution of encounter velocities and orbital elements of the involved objects differs from a random distribution with respect to the asteroid belt as a whole, thus affecting the statistics of asteroid collisions.

Published

1989