Stewart, Sarah T. - Department of Earth and Planetary Sciences, Harvard University

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Stewart, Sarah T. - Department of Earth and Planetary Sciences, Harvard University

Excess ejecta craters record episodic ice-rich layers at middle latitudes on Mars
Eos, Vol. 86, No. 44, 1 November 2005 U.S. Navy Sued Over Sonar Use The
Wave Generation from Explosions in Rock Cavities CANGLI LIU1
American Mineralogist, Volume 91, pages 18571862, 2006 0003-004X/06/11121857$05.00/DOI: 10.2138/am.2006.2015 1857
Impact Erosion of Planetary Atmospheres: Some Surprising Results William I. Newman
1993 The Meteoritical Society, 2008. Printed in USA. Meteoritics & Planetary Science 43, Nr 12, 19932013 (2008)
Earth-Based Observations of the Galileo Probe Entry Site
Terrestrial Acidification at the K/T Boundary James R. Lyons*
Paleomagnetism of Lonar impact crater, India Karin L. Louzada a,
Lonar Crater, India, is one of the young-est and best preserved impact structures on
Citation: Louzada, K.L., et al., Shock and static pressure demagnetization of pyrrhotite and implications for the Martian crust, Earth Planet. Sci. Lett. (2009), doi:10.1016/j.epsl.2009.12.006
American Mineralogist, Volume 89, pages 455461, 2004 0003-004X/04/0203455$05.00 455
The next time we used a platinum sample container and increased the pressure and temperature slightly. The result
VITREOUS GEO2 RESPONSE UNDER IMPACT LOADING , T. J. Ahrens1
Published: March 22, 2011 r 2011 American Chemical Society 3756 dx.doi.org/10.1021/jp111499x |J. Phys. Chem. B 2011, 115, 37563760
Assessment of shock effects on amphibole water contents and hydrogen isotope compositions: 2. Kaersutitic
:in Shock Compression of Condensed Matter 1997, edited by S. C. Schmidt, et al., pp. 133-136, AIP Press, Woodbury, NY, 1998.
Rampart craters on Ganymede: Their implications for fluidized ejecta emplacement Joseph BOYCE1*
Bugbuster--survivability of living bacteria upon shock compression M.J. Willis a
Geophys. J. Int. (2006) 167, 445452 doi: 10.1111/j.1365-246X.2006.03072.x GJIVolcanology,geothermics,fluidsandrocks
Weiss, B. P. et al. (2010) Paleomagnetism of Impact Spherules from Lonar Crater, India: No evidence for impact-generated fields
Shock and static pressure demagnetization of pyrrhotite and implications for the Martian crust
In situ Raman spectroscopy of low-temperature/high-pressure transformations of H2O
POROSITY EFFECTS ON IMPACT PROCESSES IN SOLAR SYSTEM MATERIALS
WAVE GENERATIONS FROM CONFINED EXPLOSIONS IN ROCKS
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Dustbuster: a compact impact-ionization time-of-flight mass spectrometer for in situ analysis of cosmic dust
Shock wave induced vaporization of porous solids Andy H. Shen, a)
A Summary Report on the Century Needs and Challenges of
Journal of Geophysical Research, Vol. 108, No. E5, 5038, doi:10.1029/2002JE001947, 2003 Hypervelocity Microparticle Impact Studies using a Novel
ICARUS 126, 138147 (1997) ARTICLE NO. IS965636
Impact demagnetization of the Martian crust: Current knowledge and future directions
Ahrens Receives the Tom Ahrens was awarded the Harry H. Hess
Shock properties of H2O ice Sarah T. Stewart1
ELSEVIER Earth and Planetary Science Letters 156 ( 1998) 125-140 Shock vaporization of anhydrite and global effects of the K/T bolide
Supplemental Online Materials Shock and Post-Shock Temperatures in an Ice-Quartz Mixture: Implications for Melting During
POST-SHOCK TEMPERATURE AND FREE SURFACE VELOCITY MEASUREMENTS OF BASALT
THE CASSINI COSMIC DUST ANALYZER , T. J. AHRENS3
DAMAGE AND ROCKVOLATILE MIXTURE EFFECTS ON IMPACT CRATER FORMATION
Impacts onto H2O Ice: Scaling Laws for Melting, Vaporization, Excavation, and Final Crater Size
Dynamic compression of SiO2: A new interpretation Joseph A. Akins and Thomas J. Ahrens
GEOPHYSICS, \`OL. 34. ti0. 5 (OCTOBER 1060). P. 696-712, 16 FIGS. DYNAMIC PHOTOELASTIC STUDIES OF P AND S WAVE
GEOPHYSICS, VOL. 35, SO. 1 (FEBRUARY 19iO), P. 33-44, i FIGS., j TABLES EXPLOSIVE SEISMIC SOURCES FOR THE MOON?
Paleomagnetism of impact spherules from Lonar crater, India and a test for impact-generated fields
GSA TODAY, FEBRUARY 2002 29 H.J. Melosh
Physics of the Earth and Planetary Interiors, 134, 35-52, 2003 Phys. Earth Planet. Inter. 12/22/20031
Direct shock wave loading of Stishovite to 235 GPa: Implications for perovskite stability relative to an
Shock-induced devolatilization and isotopic fractionation of H and C from Murchison meteorite
SHOCK DEMAGNETIZATION OF PYRRHOTITE (Fe1-xS, x0.13) AND IMPLICATIONS FOR THE MARTIAN CRUST AND METEORITES
Modeling the morphological diversity of impact craters on icy satellites 1 Laurel E. Senft and Sarah T. Stewart 2
in High Pressure Measurement, edited by A. A. Giardini and E. C. Lloyd, pp. 246-261, 1963 in High Pressure Measurement, edited by A. A. Giardini and E. C. Lloyd, pp. 246-261, 1963
Shock compression of liquid silicates to 125 GPa: The anorthitediopside join
Auxiliary material for Paper 2004JE002305R Shock Properties of H2O Ice
In Shock Compression of Condensed Matter-2003, Ed. M. Furnish, Portland, OR, 2003. A NEW H2O ICE HUGONIOT
High-Pressure Materials Research, vol. 499, edited by R. M. Wentzcovitch, et al., pp. 63-71, Mat. Res. Soc. Symp. Proc., Warrendale, PA, 1998. 1 2/23/2004
Shock and post-shock temperatures in an icequartz mixture: implications for melting during planetary impact events
Effects of shock-induced cracks on the ultrasonic velocity and attenuation in granite
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p. 1 S. T. Stewart-Mukhopadhyay, Conference Contributions ALL EXTENDED CONFERENCE ABSTRACTS AND SELECTED SHORT ABSTRACTS
Appl. Phys. Lett. 82, 1836-1838, 2003 Superheating Systematics of Crystalline Solids
GEOPHYSICAL RESEARCH LETTERS, VOL. 28, NO. 18, PAGES 3525-3527, SEPTEMBER 15, 2001 Impact induced damage beneath craters
Icarus 176 (2005) 440452 www.elsevier.com/locate/icarus
In Shock Compression of Condensed Matter-2003, Ed. M. Furnish, Portland, OR, 2003. IMPACT-INDUCED MELTING OF
POST-SHOCK TEMPERATURE MEASUREMENTS OF ALUMINUM A. Seifter1
Meteoritics & Planetary Science 41, Nr 10, 15091537 (2006) Abstract available online at http://meteoritics.org
Effect of shock on the magnetic properties of pyrrhotite, the Martian crust, and meteorites
Modeling impact cratering in layered surfaces Laurel E. Senft1
PALEOMAGNETISM OF LONAR IMPACT CRATER, INDIA. Karin L. Louzada1
Shocked H2O ice: Thermal emission measurements and the criteria for phase changes during impact events
Auxiliary Material, Stewart et al., Shocked H2O Ice p. 1 of 14 Auxiliary Material1
Geology of Lonar Crater, India GSA Data Repository Item 2009131
Effects of planet curvature and crust on the shock pressure field around impact basins
Dynamic fault weakening and the formation of large impact craters Laurel E. Senft , Sarah T. Stewart
Dynamic Fault Weakening and the Formation of Large Impact Craters 1 Laurel E. Senft and Sarah T. Stewart 2
Impacts onto H2O Ice: Scaling Laws for Melting, Vaporization, Excavation, and Final Crater Size
Leinhardt et al.: Collisions in the Kuiper Belt 195 Physical Effects of Collisions in the Kuiper Belt
'OURNALOF GEOPHYSICALRESEARCH VOL. 69, No. 22 NOVEMBER15, 1964 ShockCompressionof Crustal Rocks' Data for Quartz,
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textural changes can be observed under an optical microscope in reflected light (Fig. 4)
Dynamic compression of an FeCrNi alloy to 80 GPa Thomas S. Duffya)
Properties of LiF and A1203 to 240 GPa for Metal Shock Temperature Measurements
CP429, Shock Compression of Condensed Matter -1997 edited by Schmidt/Dandelcar '/Forbes
Delivered pre-Banquet on Wednesday evening, July 23, 1997: 60th Meteoritical Society Meeting, Maui, Hawaii (by R. Pepin)
Intl. J. Impact Engng. 23, 401-408, 1999. Proceedings of the 1998 Hypervelocity Impact Symposium, Huntsville, Alabama, November
EFFECT OF IRREVERSIBLE PHASE CHANGE ON SHOCK-WAVE PROPAGATION
Proc. Amer. Phil. Soc., 143, 653-661, 1999. 10/99 Memoir of Francis Birch
Shock Compression of Condensed Matter 1999, edited by M. D. Furnish et al., pp. 1263-1266, AIP Press, Woodbury, NY, 2000.
Shock Compression of Condensed Matter 1999, edited by M. D. Furnish et al., pp. 1259-1262, AIP Press, Woodbury, NY, 2000.
SHOCK WAVE PROPAGATION IN POROUS ICE Sarah T. Stewart and Thomas J. Ahrens
US Army Symposium on Solid Mechanics (15th : 1999-Myrtle Beach, S.C.),
Intl. J. Impact Engng. 26, 543-553, 2001 DAMAGE AND ROCKVOLATILE MIXTURE
Effect of phase change on shock wave attenuation in GeO2 and T. J. Ahrens
Phase diagram of iron, revised-core temperatures Thomas J. Ahrens, Kathleen G. Holland,1
Shock temperature in calcite (CaCO3) at 95^160 GPa Satish C. Gupta 1
Mass spectrometer calibration of Cosmic Dust Analyzer Thomas J. Ahrens, Satish C. Gupta,1
Published: J. Geophys. Res., 108, 2421, doi: 10.1029/2002JB002317, 2003 Polymorphism, superheating and amorphization of silica
Revision to Physical Review B Maximum superheating and undercooling: systematics, molecular
Meteoritics & Planetary Science 39, Nr 2, 233246 (2004) Abstract available online at http://meteoritics.org
APS Topical Conference on Shock-Compression of Condensed Matter 2003, edited by M.D. Furnish, Y. M. Gupta, and J. W. Forbes, pp. 1419-1422, American Institute of Physics, New York, 2004
Physics of the Earth and Planetary Interiors 143144 (2004) 369386 Shock-induced superheating and melting curves of
APS Topical Conference on Shock Compression of Condensed Matter 2003, edited by M. D. Furnish, Y. M. Gupta, and J. W. Forbes, pp. 1478-1483, Amer. Inst. of Phys., New York, 2004
NUMERICAL MODELING OF SHOCK-INDUCED DAMAGE FOR GRANITE UNDER DYNAMIC LOADING
AUXILIARY MATERIAL Effects of Planet Curvature and Crust on the Shock Pressure Field around Impact Basins
Planetary and Space Science 49 (2001) 961976 www.elsevier.com/locate/planspasci
Biographical Memoirs, Volume 74, published 1998 by The National Academy Press, Washington DC Albert Francis Birch
Shock Hugoniot of H2O ice Sarah T. Stewart1
High-pressure x-ray diffraction and Raman spectroscopy of ice VIII Yukihiro Yoshimura,a
APS Topical Conference on Shock-Compression of Condensed Matter 2003, edited by M. D. Furnish, Y. M. Gupta, and J. W. Forbes, pp. 1484-1487, Amer. Inst. Phys., New York, 2004
Page 1 of 2 `5-Phase' EOS: A Tabular H2O EOS for Shock Physics Codes
Shock Compression of Condensed Matter 1999, edited by M. D. Furnish, et al., pp. 967-970, AIP Press, Woodbury, NY, 2000.
1 2/23/2004 High-Pressure Materials Research, vol. 499, edited by R. M. Wentzovitch, et al., pp. 41-61, Mat. Res. Soc. Symp. Proc., Warrendale, PA, 1998.
in Shock-Compression of Condensed Matter 2001, edited by M. D. Furnish, N. N. Thadhani, and Y. Horie, pp. 1393-1396, American Institute of Physics, New York, 2002
Shock-induced vaporization of anhydrite and global cooling from the K/T impact
Impacts onto H2O ice: Scaling laws for melting, vaporization, excavation, and final crater size
Rebuttal to the Comment by Malhotra and Strom on "Constraints on the Source of Lunar Cataclysm Impactors"
Rebuttal to the comment by Malhotra and Strom on ``Constraints on the source of lunar cataclysm impactors''
BASIC RESEARCH DIRECTIONS for User Science at the National Ignition Facility
Additional information for ApJ paper. Preprint typeset using LATEX style emulateapj v. 2/16/10
Accepted for publication in the Astrophysical Journal, November, 2011. Preprint typeset using LATEX style emulateapj v. 2/16/10
www.sciencemag.org/cgi/content/full/335/6073/1212/DC1 Supporting Online Material for
DOI: 10.1126/science.1214773 , 1212 (2012);335Science