Spectral, mineralogical, and geochemical variations across Home Plate, Gusev Crater, Mars indicate high and low temperature alteration
暂无分享,去创建一个
William H. Farrand | Raymond E. Arvidson | Steven W. Ruff | Christian Schröder | Kevin W. Lewis | Joel A. Hurowitz | S. W. Squyres | David J. Des Marais | Timothy J. McCoy | Jeffrey R. Johnson | D. Ming | S. Squyres | R. Arvidson | D. D. Marais | K. Lewis | S. Ruff | W. Farrand | P. D. Souza | J. Hurowitz | C. Schröder | T. Mccoy | M. Schmidt | D. W. Ming | M. E. Schmidt | P. A. de Souza | P. Souza
[1] M. Madsen,et al. New analysis of the Mössbauer spectra of olivine basalt rocks from Gusev crater on Mars , 2009 .
[2] D. Ming,et al. Geochemical properties of rocks and soils in Gusev Crater, Mars: Results of the Alpha Particle X-Ray Spectrometer from Cumberland Ridge to Home Plate , 2008 .
[3] D. Ming,et al. Iron mineralogy and aqueous alteration from Husband Hill through Home Plate at Gusev Crater, Mars: Results from the Mössbauer instrument on the Spirit Mars Exploration Rover , 2008 .
[4] William H. Farrand,et al. Rock spectral classes observed by the Spirit Rover's Pancam on the Gusev Crater Plains and in the Columbia Hills , 2008 .
[5] William H. Farrand,et al. Spirit Mars Rover Mission to the Columbia Hills, Gusev Crater: Mission overview and selected results from the Cumberland Ridge to Home Plate , 2008 .
[6] J. Kubicki,et al. Kinetics of water-rock interaction , 2008 .
[7] William H. Farrand,et al. Hydrothermal origin of halogens at Home Plate, Gusev Crater , 2008 .
[8] Jeffrey R. Johnson,et al. Hydrothermal processes at Gusev Crater: An evaluation of Paso Robles class soils , 2008 .
[9] Jeffrey R. Johnson,et al. Wind-driven particle mobility on Mars: Insights from Mars Exploration Rover observations at "El Dorado" and surroundings at Gusev Crater , 2008 .
[10] S. Squyres,et al. Mineralogy of volcanic rocks in Gusev Crater, Mars: Reconciling Mössbauer, Alpha Particle X‐Ray Spectrometer, and Miniature Thermal Emission Spectrometer spectra , 2008 .
[11] D. Ming,et al. Detection of Silica-Rich Deposits on Mars , 2008, Science.
[12] V. Hamilton,et al. Geologic characteristics of relatively high thermal inertia intracrater deposits in southwestern Margaritifer Terra, Mars , 2007 .
[13] H. P. Gunnlaugsson,et al. The Stardalur magnetic anomaly revisited - new insights into a complex cooling and alteration history , 2007 .
[14] A. F. C. Haldemann,et al. Pyroclastic Activity at Home Plate in Gusev Crater, Mars , 2007, Science.
[15] A. McEwen,et al. Mars Reconnaissance Orbiter's High Resolution Imaging Science Experiment (HiRISE) , 2007 .
[16] G. J. Taylor,et al. Kinetic model of olivine dissolution and extent of aqueous alteration on mars , 2006 .
[17] Jeffrey R. Johnson,et al. The rocks of Gusev Crater as viewed by the Mini‐TES instrument , 2006 .
[18] S. Squyres,et al. Structure and stratigraphy of Home Plate from the Spirit Mars Exploration Rover , 2006 .
[19] Amitabha Ghosh,et al. One Martian year of atmospheric observations using MER Mini‐TES , 2006 .
[20] Jeffrey R. Johnson,et al. Characterization and petrologic interpretation of olivine‐rich basalts at Gusev Crater, Mars , 2006 .
[21] Raymond E. Arvidson,et al. In-Situ and Experimental Evidence for Acidic Weathering of Rocks and Soils on Mars , 2006 .
[22] Steven W. Squyres,et al. Alpha Particle X‐Ray Spectrometer (APXS): Results from Gusev crater and calibration report , 2006 .
[23] Jeffrey R. Johnson,et al. Spectral variability among rocks in visible and near‐infrared multispectral Pancam data collected at Gusev crater: Examinations using spectral mixture analysis and related techniques , 2006 .
[24] William H. Farrand,et al. Geochemical and mineralogical indicators for aqueous processes in the Columbia Hills of Gusev crater, Mars , 2006 .
[25] Steven W. Squyres,et al. Geochemical modeling of evaporation processes on Mars: Insight from the sedimentary record at Meridiani Planum , 2005 .
[26] D. Ming,et al. Water alteration of rocks and soils on Mars at the Spirit rover site in Gusev crater , 2005, Nature.
[27] Amitabha Ghosh,et al. An integrated view of the chemistry and mineralogy of martian soils , 2005, Nature.
[28] T. Pettke,et al. Magnetite solubility and iron transport in magmatic-hydrothermal environments , 2004 .
[29] Scott M. McLennan,et al. Acid-sulfate weathering of synthetic Martian basalt: The acid fog model revisited , 2004 .
[30] Raul A. Romero,et al. Athena Mars rover science investigation , 2003 .
[31] S. T. Elliot,et al. Mars Exploration Rover Athena Panoramic Camera (Pancam) investigation , 2003 .
[32] H. Schmincke,et al. Palagonite – a review , 2002 .
[33] Richard V. Morris,et al. Phyllosilicate-poor palagonitic dust from Mauna Kea Volcano (Hawaii): A mineralogical analogue for magnetic Martian dust? , 2001 .
[34] Everett L. Shock,et al. Prediction of the thermodynamic properties of aqueous metal complexes to 1000°C and 5 kb , 1997 .
[35] G. Lofgren. Experimental Devitrification Rate of Rhyolite Glass , 1970 .
[36] S. Haggerty,et al. The alteration of olivine in basaltic and associated lavas , 1967 .
[37] K. Di,et al. An East to West Mineralogical Trend in Mars Exploration Rover Spirit Moessbauer Spectra of Home Plate , 2008 .
[38] Susan L. Brantley,et al. Data Fitting Techniques with Applications to Mineral Dissolution Kinetics , 2008 .
[39] A. Navarre‐Sitchler,et al. Basalt weathering rates on Earth and the duration of liquid water on the plains of Gusev Crater, Mars , 2008 .
[40] C. Pieters,et al. Remote geochemical analysis : elemental and mineralogical composition , 1993 .
[41] R. Singer. Spectral evidence for the mineralogy of high‐albedo soils and dust on Mars , 1982 .