SIMBIO-SYS: The spectrometer and imagers integrated observatory system for the BepiColombo planetary orbiter

[1]  P. Masson,et al.  Tectonic history of Mercury. , 1988 .

[2]  T. Roush,et al.  A search for water on the moon at the Reiner Gamma Formation - A possible site of cometary coma impact , 1988 .

[3]  Giampiero Naletto,et al.  PHEBUS: A double ultraviolet spectrometer to observe Mercury's exosphere , 2010 .

[4]  Johan Warell,et al.  Properties of the Hermean regolith: V. New optical reflectance spectra, comparison with lunar anorthosites, and mineralogical modelling , 2004 .

[5]  Alessandro Frigeri,et al.  Mercury's surface and composition to be studied by BepiColombo , 2010 .

[6]  A. Potter,et al.  Discovery of Sodium in the Atmosphere of Mercury , 1985, Science.

[7]  David E. Smith,et al.  The global topography of Mars and implications for surface evolution. , 1999, Science.

[8]  Mark J. Cintala,et al.  Impact‐induced thermal effects in the lunar and Mercurian regoliths , 1992 .

[9]  Paul G. Lucey,et al.  Lunar pure anorthosite as a spectral analog for Mercury , 2002 .

[10]  T. H. Morgan,et al.  Potassium in the atmosphere of Mercury , 1986 .

[11]  A. M. Di Lellis,et al.  SERENA: A suite of four instruments (ELENA, STROFIO, PICAM and MIPA) on board BepiColombo-MPO for particle detection in the Hermean environment , 2008 .

[12]  The Origin of Planetary Impactors in the Inner Solar System , 2005, Science.

[13]  Enrico Flamini,et al.  BepiColombo SIMBIO-SYS data: Preliminary evaluation for rock discrimination and recognition in both low and high resolution spectroscopic data in the visible and near infrared spectral intervals , 2007 .

[14]  Mark S. Robinson,et al.  Ferrous oxide in Mercury's crust and mantle , 2001 .

[15]  Daniel Dzurisin,et al.  The tectonic and volcanic history of mercury as inferred from studies of scarps, ridges, troughs, and other lineaments , 1978 .

[16]  Paul G. Lucey,et al.  Temperature-Dependent Near-Infrared Spectral Properties of Minerals, Meteorites, and Lunar Soil , 2002 .

[17]  Richard J. Pike,et al.  Geomorphology of impact craters on Mercury , 1988 .

[18]  P. Spudis,et al.  Composition of orientale basin deposits and implications for the lunar basin‐forming process , 1984 .

[19]  JOHN S. Lewis Origin and composition of Mercury , 1988 .

[20]  M. Malin,et al.  The Thermal Emission Imaging System (THEMIS) for the Mars 2001 Odyssey Mission , 2004 .

[21]  Clark R. Chapman,et al.  The MESSENGER mission to Mercury: Scientific objectives and implementation , 2001 .

[22]  A. Davis Meteorites, comets, and planets , 2004 .

[23]  Michael H. Carr,et al.  The geology of the terrestrial planets , 1983 .

[24]  Bruce C. Murray,et al.  The Mariner 10 pictures of Mercury: An overview , 1975 .

[25]  E. Cloutis,et al.  Spectral Modeling of Planetary Analogues, Preliminary Results , 2008 .

[26]  Lionel Wilson,et al.  Identification of mercurian volcanism: Resolution effects and implications for MESSENGER , 2002 .

[27]  A. G. W. Cameron,et al.  The partial volatilization of Mercury , 1985 .

[28]  Y. Langevin The regolith of Mercury: present knowledge and implications for the Mercury Orbiter mission , 1997 .

[29]  T. H. Morgan,et al.  Ratio of sodium to potassium in the Mercury exosphere , 2002 .

[30]  P. Lucey,et al.  A Mariner 10 color study of Mercurian craters , 2007 .

[31]  S. Murchie,et al.  Volcanism on Mercury: Evidence from the first MESSENGER flyby for extrusive and explosive activity and the volcanic origin of plains , 2009 .

[32]  Yves Langevin,et al.  Image and spectral image compression for four experiments on the ROSETTA and Mars Express missions of ESA , 2000, SPIE Optics + Photonics.

[33]  N. Ness,et al.  Magnetic Field Observations near Mercury: Preliminary Results from Mariner 10 , 1974, Science.

[34]  R. Jurgens,et al.  Large Longitude Libration of Mercury Reveals a Molten Core , 2007, Science.

[35]  Bonnie L. Cooper,et al.  Midinfrared spectra of Mercury , 2001 .

[36]  J. Warell,et al.  Properties of the hermean regolith: iii. disk-resolved vis-NIR reflectance spectra and implications for the abundance of iron* , 2003 .

[37]  M. P. Charette,et al.  Effects of maturation on the reflectance of the lunar regolith: Apollo 16 — A case study , 1975 .

[38]  J. W. Chamberlain Theory of planetary atmospheres , 1978 .

[39]  Sean C. Solomon,et al.  Mercury: the enigmatic innermost planet , 2003 .

[40]  S. Peale,et al.  Does Mercury have a molten core? , 1976, Nature.

[41]  S. Murchie,et al.  Spectroscopic Observations of Mercury's Surface Reflectance During MESSENGER's First Mercury Flyby , 2008, Science.

[42]  Ted L. Roush,et al.  Comparison of Laboratory Emission Spectra with Mercury Telescopic Data , 1998 .

[43]  Tilman Spohn,et al.  The interior structure of Mercury: what we know, what we expect from BepiColombo , 2001 .

[44]  Robert G. Strom,et al.  Additional evidence of Mercurian volcanism , 1976 .

[45]  David K. Lynch,et al.  Mercury: Mid‐infrared (3–13.5 μm) observations show heterogeneous composition, presence of intermediate and basic soil types, and pyroxene , 2002 .

[46]  M. Zuber,et al.  Return to Mercury: A Global Perspective on MESSENGER's First Mercury Flyby , 2008, Science.

[47]  Faith Vilas,et al.  Mercury: Absence of crystalline Fe2+ in the regolith , 1985 .

[48]  A. Sprague,et al.  Mercury: Evidence for Anorthosite and Basalt from Mid-infrared (7.3-13.5 μm) Spectroscopy , 1994 .

[49]  B. R. Hawke,et al.  RECENT COMET IMPACTS ON THE MOON - THE EVIDENCE FROM REMOTE-SENSING STUDIES , 1987 .

[50]  R. Jeanloz,et al.  Evidence for a basalt-free surface on Mercury and implications for internal heat. , 1995, Science.

[51]  Giampiero Naletto,et al.  Simulations using terrestrial geological analogues to assess interpretability of potential geological features of the Hermean surface restituted by the STereo imaging Camera of the SIMBIOSYS package (BepiColombo mission) , 2008 .

[52]  Roger N. Clark,et al.  The Mercury soil: Presence of Fe2+ , 1979 .

[53]  J. Oberst,et al.  Geologic evolution and cratering history of Mercury , 2001 .

[54]  George W. Wetherill,et al.  Accumulation of Mercury from planetesimals , 1988 .

[55]  Willy Benz,et al.  Collisional stripping of Mercury's mantle , 1988 .

[56]  Thomas A. Bida,et al.  Discovery of calcium in Mercury's atmosphere , 2000, Nature.

[57]  J. Emery,et al.  Mercury: First Spectra from 0.7 to 5.5 micron Support Low FeO and Feldspathic Composition , 2004 .

[58]  Maria T. Zuber,et al.  Thickness of the Martian crust: Improved constraints from geoid-to-topography ratios , 2004 .

[59]  William A. Pearlman,et al.  A new, fast, and efficient image codec based on set partitioning in hierarchical trees , 1996, IEEE Trans. Circuits Syst. Video Technol..

[60]  A. Balogh,et al.  Returns to Mercury: science and mission objectives , 2001 .

[61]  Gretchen Benedix,et al.  Spectra of extremely reduced assemblages: Implications for Mercury , 2002 .

[62]  D. Gault,et al.  Some comparisons of impact craters on Mercury and the Moon , 1975 .

[63]  E. Fischer,et al.  THERMAL INFRARED SPECTRA OF LUNAR SOILS , 1997 .

[64]  M. Malin,et al.  Mars Global Surveyor Mars Orbiter Camera: Interplanetary cruise through primary mission , 2001 .

[65]  T. Hoolst,et al.  Mercury's tides and interior structure , 2003 .

[66]  F. Leblanc,et al.  Potential relations between Caloris basin and Mercury's sodium exosphere , 2006 .

[67]  D. Mitchell,et al.  Microwave Imaging of Mercury's Thermal Emission at Wavelengths from 0.3 to 20.5 cm , 1994 .

[68]  B. Fegley,et al.  A vaporization model for iron/silicate fractionation in the Mercury protoplanet , 1987 .

[69]  Richard D. Starr,et al.  The MESSENGER mission to Mercury: scientific payload , 2001 .

[70]  N. Thomas,et al.  The Surface of Mercury as Seen by Mariner 10 , 2007 .

[71]  M. Ross,et al.  Mercury's thermal history and the generation of its magnetic field , 1988 .

[72]  C. J. Hostetler,et al.  On the early global melting of the terrestrial planets. , 1980 .

[73]  Johannes Benkhoff,et al.  BepiColombo: Payload and mission updates , 2006 .

[74]  J. Craig,et al.  Mineral chemistry of metal sulfides , 1978 .

[75]  S. Weidenschilling,et al.  Iron Silicate Fractionation and the Origin of Mercury , 1978 .

[76]  Giovanni G. Fazio,et al.  Mid-Infrared (8.1–12.5 μm) Imaging of Mercury , 2000 .

[77]  A. L. Broadfoot,et al.  Mariner 10 - Mercury atmosphere , 1976 .

[78]  Erick R. Malaret,et al.  The Mercury Dual Imaging System on the MESSENGER Spacecraft , 2007 .

[79]  Paul G. Lucey,et al.  Recalibrated Mariner 10 Color Mosaics: Implications for Mercurian Volcanism , 1997, Science.

[80]  G. Rossman,et al.  An Update on Color in Gems. Part 3: Colors Caused by Band Gaps and Physical Phenomena , 1988 .

[81]  Paul D. Spudis,et al.  Stratigraphy and geologic history of Mercury , 1988 .

[82]  Bruce Hapke,et al.  Space weathering from Mercury to the asteroid belt , 2001 .

[83]  D. Gault,et al.  Seismic effects from major basin formations on the moon and mercury , 1975 .

[84]  Newell J. Trask,et al.  Preliminary geologic terrain map of Mercury , 1975 .

[85]  D. Vokrouhlický,et al.  Gravity field and rotation state of Mercury from the BepiColombo Radio Science Experiments , 2001 .