Barbara Cohen

Q: What Schools Are Affiliated With Barbara Cohen

Barbara Cohen is affiliated with the following schools: Stony Brook University, California Institute of Technology, University of Arizona, Stanford University, Cornell University, University of New Mexico

Barbara Cohen 's AcademicInfluence.com Rankings

Barbara Cohen

Physics

#8898

World Rank

#11217

Historical Rank

#2004

USA Rank

Planetary Science

#159

World Rank

#161

Historical Rank

#75

USA Rank

Astronomy

#1297

World Rank

#2108

Historical Rank

#460

USA Rank

physics Degrees

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Physics

Barbara Cohen 's Degrees

PhD Planetary Science California Institute of Technology
Masters Astronomy University of Arizona
Bachelors Physics Stanford University

Why Is Barbara Cohen Influential?

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According to Wikipedia, Barbara Cohen is a planetary scientist at NASA's Goddard Space Flight Center. The asteroid 6816 Barbcohen is named after her. Education Cohen is from upstate New York. She earned a bachelor's degree in geology from State University of New York at Stony Brook in 1993. She joined Phi Beta Kappa during her studies. She moved to the University of Arizona for her doctoral studies, where she received a University of Arizona Graduate College Fellowship and NASA Graduate Student Research Program Fellowship, and graduated in 2000. Here Cohen looked to understand impact rates on the moon using microbeam analysis and Argon–argon dating of lunar meteorites. She identified that clastic rock in lunar meteorites are different to samples from Apollo, and have ages consistent with Late Heavy Bombardment. While at the University of Arizona, she also led a study into various physical properties of chili.

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Barbara Cohen 's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Mossbauer mineralogy of rock, soil, and dust at Meridiani Planum, Mars: Opportunity's journey across sulfate-rich outcrop, basaltic sand and dust, and hematite lag deposits (2006) (271)
Cataclysmic bombardment throughout the inner solar system 3.9–4.0 Ga (2002) (199)
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) (192)
Pyroclastic Activity at Home Plate in Gusev Crater, Mars (2007) (182)
Ancient Impact and Aqueous Processes at Endeavour Crater, Mars (2012) (180)
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) (164)
What are the real constraints on the existence and magnitude of the late heavy bombardment (2007) (129)
Why aqueous alteration in asteroids was isochemical: High porosity ≠ high permeability (2009) (120)
A Nebular Origin for Chondritic Fine-Grained Phyllosilicates (2003) (120)
High-velocity collisions from the lunar cataclysm recorded in asteroidal meteorites (2013) (115)
Noble gases in iddingsite from the Lafayette meteorite: Evidence for liquid water on Mars in the last few hundred million years (2000) (114)
Modeling of Liquid Water on CM Meteorite Parent Bodies and Implications for Amino Acid Racemization (1999) (111)
Mineralogy of volcanic rocks in Gusev Crater, Mars: Reconciling Mössbauer, Alpha Particle X‐Ray Spectrometer, and Miniature Thermal Emission Spectrometer spectra (2008) (107)
The Surface Composition of Ceres (2011) (78)
The Meteoritical Bulletin, No. 90, 2006 September (2006) (76)
Feldspathic clast populations in polymict ureilites: Stalking the missing basalts from the ureilite parent body (2004) (71)
A Two‐Step K‐Ar Experiment on Mars: Dating the Diagenetic Formation of Jarosite from Amazonian Groundwaters (2017) (70)
The sustainability of habitability on terrestrial planets: Insights, questions, and needed measurements from Mars for understanding the evolution of Earth‐like worlds (2016) (68)
Geochemistry and 40Ar‐39Ar geochronology of impact‐melt clasts in feldspathic lunar meteorites: Implications for lunar bombardment history (2005) (61)
Interpreting and reporting 40Ar/39Ar geochronologic data (2020) (60)
Petrogenesis of lunar highlands meteorites: Dhofar 025, Dhofar 081, Dar al Gani 262, and Dar al Gani 400 (2004) (49)
Structure, stratigraphy, and origin of Husband Hill, Columbia Hills, Gusev Crater, Mars (2008) (47)
53Mn–53Cr and 26Al–26Mg ages of a feldspathic lithology in polymict ureilites (2010) (44)
The formation of chondrules by open-system melting of nebular condensates (2004) (44)
Racemization of Meteoritic Amino Acids (1998) (42)
Degradation of Victoria crater, Mars (2008) (42)
Desert Research and Technology Studies (DRATS) 2010 Science Operations: Operational Approaches and Lessons Learned for Managing Science during Human Planetary Surface Missions (2013) (41)
Evaporation in the young solar nebula as the origin of ‘just-right’ melting of chondrules (2000) (38)
Context of ancient aqueous environments on Mars from in situ geologic mapping at Endeavour Crater (2015) (37)
Lunar highland meteorite Dhofar 026 and Apollo sample 15418: Two strongly shocked, partially melted, granulitic breccias (2004) (34)
Argon‐40‐argon‐39 chronology and petrogenesis along the eastern limb of the Moon from Luna 16, 20 and 24 samples (2001) (32)
Granoblastic olivine aggregates in magnesian chondrules: Planetesimal fragments or thermally annealed solar nebula condensates? (2008) (31)
Comparing Apollo and Mars Exploration Rover (MER)/phoenix operations paradigms for human exploration during NASA Desert-RATS science operations (2013) (30)
Soil sedimentology at Gusev Crater from Columbia Memorial Station to Winter Haven (2008) (30)
SYNTHESIS OF THE NEW COMPOUND CAFE(CO3)2 AND EXPERIMENTAL CONSTRAINTS ON THE (CA,FE)CO3 JOIN (1993) (29)
The Potassium-Argon Laser Experiment (KArLE): In situ geochronology for planetary robotic missions (2014) (27)
The Vestan cataclysm: Impact‐melt clasts in howardites and the bombardment history of 4 Vesta (2013) (25)
Lunar Flashlight: Mapping Lunar Surface Volatiles Using a Cubesat (2015) (24)
An experimental study of the formation of metallic iron in chondrules (2004) (22)
Diverse Lithologies and Alteration Events on the Rim of Noachian‐Aged Endeavour Crater, Meridiani Planum, Mars: In Situ Compositional Evidence (2018) (22)
NASA'S Robotic Lunar Lander Development Project (2012) (20)
Analyses of the chondritic meteorite Orvinio (H6): Insight into the origins and evolution of shocked H chondrite material (2004) (17)
Determining best practices in reconnoitering sites for habitability potential on Mars using a semi-autonomous rover: A GeoHeuristic Operational Strategies Test (2016) (17)
Sands at Gusev Crater, Mars (2014) (17)
BULK-COMPOSITIONAL STUDY OF THREE DHOFAR LUNAR METEORITES: ENIGMATIC SIDEROPHILE ELEMENT RESULTS FOR DHOFAR 026 (2001) (16)
Mineralogy and chemistry of cobbles at Meridiani Planum, Mars, investigated by the Mars Exploration Rover Opportunity (2010) (15)
Update on Development of the Potassium-Argon Laser Experiment (KArLE) Instrument for In Situ Geochronology (2012) (15)
Lunar Flashlight: Illuminating the Lunar South Pole (2020) (13)
An olivine cumulate outcrop on the floor of Jezero crater, Mars (2022) (12)
New Approaches to Lunar Ice Detection and Mapping (2013) (12)
Aqueously altered igneous rocks sampled on the floor of Jezero crater, Mars (2022) (12)
Testing Mars Exploration Rover-inspired operational strategies for semi-autonomous rovers on the moon II: The GeoHeuristic operational Strategies Test in Alaska (2014) (11)
In Situ Geochronology on Mars and the Development of Future Instrumentation (2019) (10)
Lunar Flashlight: Exploration and Science at the Moon with a 6U CubeSat (2015) (9)
Scientific Expectations from a Sample of Regolith and Rock Fragments from the Interior of the Lunar South Pole-Aitken Basin (2003) (9)
Solar Sail Propulsion for Interplanetary Cubesats (2015) (8)
Dating igneous rocks using the Potassium-Argon Laser Experiment (KArLE) instrument: A case study for ~380 Ma basaltic rocks. (2018) (7)
Kinetic isotope effect during reduction of iron from a silicate melt (2006) (7)
Visible and near-infrared multispectral analysis of geochemically measured rock fragments at the Opportunity landing site in Meridiani Planum (2010) (7)
Testing Mars-inspired operational strategies for semi-autonomous rovers on the Moon: The GeoHeuristic Operational Strategies Test in New Mexico (2011) (6)
Lunar Crater Observation and Sensing Satellite (LCROSS) (2009) (6)
Impact Melt Facies in the Moon's Crisium Basin: Identifying, Characterizing, and Future Radiogenic Dating (2020) (6)
Marquette Island: A Distinct Mafic Lithology Discovered by Opportunity (2010) (6)
Lunar Meteorite Dhofar 026: A Second-Generation Impact Melt (2001) (6)
Payload Design for the Lunar Flashlight Mission (2017) (6)
The Main-belt Asteroid and NEO Tour with Imaging and Spectroscopy (MANTIS) (2015) (6)
NASA's Robotic Lunar Lander Project Update (2010) (5)
NASA's International Lunar Network Anchor Nodes and Robotic Lunar Lander Project Update (2010) (5)
Increasing occurrence of sandstone cemented with calcium sulfate on Mount Sharp, Gale Crater, Mars (2017) (5)
MODELING OF LIQUID WATER ON CM PARENT BODIES AND IMPLICATIONS FOR AMINO ACID RACEMIZATION (2000) (5)
Robotic Lunar Landers for Science and Exploration (2010) (5)
Constraining Solar System Bombardment Using In Situ Radiometric Dating (2018) (4)
Lunar Meteorites and the Lunar Cataclysm (2001) (4)
Santorini, Another Meteorite on Mars and Third of a Kind (2009) (4)
Quantifying the amount of impact ejecta at the MER landing sites and potential paleolakes in the southern Martian highlands (2006) (4)
DEVELOPING A RELATIONSHIP BETWEEN LIBS ABLATION AND PIT VOLUME FOR IN SITU DATING OF GEOLOGIC SAMPLES. D. Devimes (2015) (4)
Geochemical Properties of Rocks and Soils in Gusev Crater, Mars: APXS Results from Cumberland Ridge to Home Plate (2008) (4)
A Test of Two Field Methods: Determining Best Practices in Reconnoitering Sites for Habitability Potential Using a Semi-Autonomous Rover (2015) (4)
The Effect of Liquid Transport on the Modeling of cm Parent Bodies (2001) (4)
Relationship Between LIBS Ablation and Pit Volume for Geologic Samples: Applications for the In Situ Absolute Geochronology (2014) (3)
The determination of ice composition with instruments on cometary landers. (1997) (3)
Ni/S/Cl systematics and the origin of impact‐melt glasses in Martian meteorite Elephant Moraine 79001 (2016) (3)
Science Support Room Operations During Desert RATS 2009 (2009) (3)
In Situ Geochronology for the Next Decade: Mission Designs for the Moon, Mars, and Vesta (2021) (3)
Volume Measurements of Laser-generated Pits for In Situ Geochronology using KArLE (Potassium-Argon Laser Experiment) (2014) (3)
Summary and Highlights of the NRC 2007 Report: The Scientific Context for the Exploration of the Moon (SCEM) (2007) (3)
Testing the efficiency of rover science protocols for robotic sample selection: A GeoHeuristic Operational Strategies Test (2018) (3)
Using dust shed from asteroids as microsamples to link remote measurements with meteorite classes (2018) (3)
Impact Melt Clasts in Lunar Meteorites Dar Al Gani 262 and Dar Al Gani 400 (1999) (3)
Localized and Areally Extensive Alterations in Marathon Valley, Endeavour Crater Rim, Mars (2016) (3)
KArLE: In-Situ Geochronology on the Mars 2020 Rover with KArLE (The Potassium-Argon Laser Experiment) (2014) (3)
Revisiting the West Clearwater Lake Impact Structure, Canada (2015) (3)
The Antarctic Search for Meteorites (2016) (3)
The Case for Ceres: Report to the Planetary Science Decadal Survey Committee (2009) (3)
IN SITU GEOCHRONOLOGY ON THE MARS 2020 ROVER WITH KArLE (POTASSIUM-ARGON LA- (2014) (3)
Is a Linear or a Walkabout Protocol More Efficient When Using a Rover to Choose Biologically Relevant Samples in a Small Region of Interest? (2020) (3)
Characterization of Rock Types at Meridiani Planum, Mars using MER 13-Filter Pancam Spectra (2009) (2)
International Lunar Network (ILN) Anchor Nodes (2008) (2)
Geochemistry and 40AR - 39AR geochronology of lunar meteorite impact melt clasts (2000) (2)
AR-AR AGE OF AN IMPACT-MELT LITHOLOGY IN DHOFAR 961 (2016) (2)
Comment on: “New” lunar meteorites: Impact melt and regolith breccias and large‐scale heterogeneities of the upper lunar crust, by P. H. Warren, F. Ulff‐Møller, and G. W. Kallemeyn (2007) (2)
METEORITE IDENTIFICATION AND CLASSIFICATION USING MAGNETIC SUSCEPTIBILITY (2006) (2)
Composition and Morphology of Iron Meteorites Found in Gale Crater, Mars (2017) (2)
A lingering local exosphere created by a gas plume of a lunar lander (2021) (2)
A Review of Lunar Meteorite Impact-Melt Clast Compositions and Ages (2008) (2)
The International Lunar Network (2008) (2)
The Lunar WATER Mission: A Small Orbital Mission to Characterize the Water on the Moon's Surface (2017) (2)
The International Lunar Network (ILN) and the US Anchor Nodes Mission (2009) (2)
FURTHER MODELING OF LIQUID WATER ON CM PARENT BODIES (2000) (2)
Development of the Potassium-Argon Laser Experiment (KArLE) Instrument for in situ Geochronology Measurements (2012) (2)
Continued Development of in Situ Geochronology for Planetary Using KArLE (Potassium-Argon Laser Experiment) (2016) (2)
The Potassium-Argon Laser Experiment (KarLE): In Situ Geochronology for Mars and Beyond (2014) (2)
Geochemistry and 40Ar-39Ar Geochronology of Impact-melt Clasts in Lunar Meteorites Dar Al Gani 262 and Calcalong Creek (2005) (2)
Gretna Green, a Possible Chondrite Detected at Glen Torridon in Gale Crater (2020) (2)
Overview of NASA FINESSE (Field Investigations to Enable Solar System Science and Exploration) Science and Exploration Results (2016) (2)
Fluid-rock interaction in metamorphosed andesitic dikes, Elat Metamorphic Complex, Israel (2000) (2)
NEA Scout and Lunar Flashlight: Two Near-Term Interplanetary Solar Sail Missions (2015) (2)
Lunar Missions for the Decade 2023-2033 (2021) (2)
Taking Another Look at the 3-Micron Absorption Band on Asteroids (2002) (1)
DETERMINING EFFICIENT ROVER SCIENCE PROTOCOLS FOR ROBOTIC SAMPLE SELECTION: A GEOHEURISTIC OPERATIONAL STRATEGIES TEST IN GREATER CANYONLANDS, UTAH, US (2017) (1)
A crowded Solar System (2012) (1)
Samples Collected from the Floor of Jezero Crater with the Mars 2020 Perseverance Rover (2023) (1)
The Onset of the Cataclysm: In Situ Dating of the Nectaris Basin Impact Melt Sheet (2017) (1)
A NEW INTERPRETATION OF 40 AR- 39 AR AGES OF EUCRITES AND IMPLICATIONS FOR VESTA'S (2012) (1)
Identifying Community Needs for a Mars Exploration Rovers (MER) Data Catalog (2020) (1)
The Potassium-Argon Laser Experiment (KArLE): In Situ Geochronology for Planetary Missions (2016) (1)
The MER Mossbauer Spectrometers: 40 Months of Operation on the Martian Surface (2007) (1)
Advancing Science of the Moon: Progress Toward Achieving the Goals of the Scientific Context for Exploration of the Moon Report (2018) (1)
The Lunar WATER Mission: A PSDS3 Feasibility Study of a Solar-Electric Propulsion Small Sat Mission to Characterize the Water on the Moon (2018) (1)
Geohazards on the Moon and the Importance of the International Lunar Network (2009) (1)
Applying In Situ K-Ar and Rb-Sr Geochronology to Ordinary Chondrites (2020) (1)
IMPACT MELT CLASTS IN LUNAR METEORITES (2000) (1)
Sampling South Pole-Aitken Basin: The Moonrise Approach (2012) (1)
Principal Components Analysis of Reflectance Spectra Returned by the Mars Exploration Rover Opportunity (2010) (1)
Identifying Shocked Feldspar on Mars Using Perseverance Spectroscopic Instruments: Implications for Geochronology Studies on Returned Samples (2022) (1)
Lunar Flashlight and Other Lunar Cubesats (2017) (1)
Petrology of the Crystalline Rocks Hosting the Santa Fe Impact Structure (2010) (1)
Trace Element Zoning in CM Chondrite Carbonates : Insights from Compositional Mapping Using (2006) (1)
Pre-Mission Input Requirements to Enable Successful Sample Collection by a Remote Field/EVA Team (2015) (1)
The Vestal Cataclysm (2012) (1)
Increasing occurrence of sandstone cemented with calcium sulfate on Mount Shart , Gale Crater , Mars Conference Item (2017) (1)
Geochronology as a Framework for Inner Solar System History and Evolution (2021) (1)
Characterizing the Effect of Shock on Isotopic Ages. 2; Mg-Suite Troctolite Major Elements (2009) (1)
Ni , S , and Cl in EETA 79001 (2011) (1)
Terrestrial Analog Field Investigations to Enable Science and Exploration Studies of Impacts and Volcanism on the Moon, NEAs, and Moons of Mars (2013) (1)
The Land of Opportunity: Human Return to Meridiani Planum (2015) (1)
Ar-40-Ar-39 Age of an Impact-Melt Lithology in Lunar Meteorite Dhofar 961 (2016) (1)
TEN YEARS OF THE LUNAR RECONNAISSANCE ORBITER : ADVANCING LUNAR SCIENCE AND CONTEXT FOR FUTURE LUNAR EXPLORATION (2019) (1)
Is a Linear or a Walkabout Protocol More Efficient for Robotic Sample Selection in a Small Region of Interest (2018) (1)
The Value of a Dual Anonymous System for Reducing Bias in Reviews of Planetary Research and Analysis Proposals and Scientific Papers (2021) (1)
What Do Nectaris Basin Impact Melt Rocks Look like and Where Can We Find Them (2015) (1)
Developing a Relationship Between LIBS Spectra and Pit Volume for in Situ Dating of Geologic Samples (2015) (1)
Identifying and Characterizing Impact Melt Outcrops in the Nectaris Basin (2016) (1)
Why the Moon is important for Solar System Science (2010) (1)
Science Operations During Planetary Surface Exploration: Desert-RATS Tests 2009-2011 (2012) (1)
Why aqueous alteration in asteroids was isochemical : 1 High porosity ≠ high permeability 2 3 (2011) (1)
ROBOTIC LUNAR LANDER DEVELOPMENT STATUS (2012) (1)
Mars Exploration Rover APXS Results from Matijevic Hill (2013) (1)
CATACLYSMIC BOMBARDMENT RECORDED IN 40- AR-39-AR AGES OF IMPACT-MELT CLASTS IN HOWARDITES (2007) (1)
Sample Selection Under a Highly Constrained Tactical Timeline: A GHOST Terrestrial Analog Field Study (2020) (0)
The Antarctic Plateau: Type Example of a Planetary Wind Dominated Landscape (2020) (0)
Martian Chemical and Isotopic Reference Standards in Earth-based Laboratories — An Invitation for Geochemical, Astrobiological, and Engineering Dialog on Considering a Weathered Chondrite for Mars Sample Return. (2017) (0)
NASA's Desert RATS Science Backroom: Remotely Supporting Planetary Exploration (2012) (0)
GEOLOGIC EXPLORATION ENABLED BY OPTIMIZED SCIENCE OPERATIONS ON THE LUNAR SURFACE. (2017) (0)
Building on the Cornerstone: Destinations for Nearside Sample Return (2016) (0)
Long-Distance Dating: In Situ Geochronology for Planetary Missions (2016) (0)
Long Duration Surface Experiments on Airless Bodies: The Need for Extended In Situ Measurements and Lessons from ALSEP (2017) (0)
Development of Mini-Landers for Very Small Lunar Surface Payloads (2013) (0)
Updating the Geologic Maps of the Apollo 15, 16, and 17 Landing Sites (2018) (0)
Bang, Zoom, Straight to the Moon: Lunar Science in a New Age of Exploration (2016) (0)
Go Where You Know: Begin Human Exploration of Mars at Low Latitudes (2019) (0)
Selenocene - A Software Tool to Track the Processing History of Samples Analyzed in the Mid-Atlantic Noble Gas Research Laboratory (2020) (0)
Young K-Ar gae of jarosite in the Mojave sample at Gale Crater, Mars. (2017) (0)
Compositional and Geochronological Constraints on the Late Heavy Bombardment (2007) (0)
A High Resolution Microprobe Study of EETA79001 Lithology C (2010) (0)
The bombardment history of (4) Vesta as told by sample geochronology (2014) (0)
OFF-PLANET GEOCHRONOLOGY: ONGOING RESULTS OF RADIOMETRIC AND COSMOGENIC DATING ON MARS (2016) (0)
Two Martian Winters at Gusev Crater and Meridiani Planum: New Results From the MER Mossbauer Spectrometers (2006) (0)
Using Rover-analogous Methodology to Discriminate between Volcanic and Sedimentary Origins in Successions Dominated by Igneous Composition (2022) (0)
Science-Driven Strategies for Semi-Autonomous Rovers on the Moon: Field Test at an Ice-Bearing Regolith Analog (2012) (0)
In-Situ Geochronology for Planetary Robotic Missions: Development, Calibration, and Application of the LIBS-MS Technique on Lunar Rocks (2019) (0)
40th Lunar and Planetary Science Conference (2009) 2094.pdf CHARACTERIZING THE EFFECT OF SHOCK ON ISOTOPIC AGES I: FERROAN ANORTHOSITE (2009) (0)
In-Situ K-Ar Dating Based on UV-Laser Ablation Coupled with a LIBS-QMS System Development, Calibration and Application (2019) (0)
The Violent Early Solar System, as Told by Lunar Sample Geochronology (2012) (0)
Development and Testing of a Sample Handling System for In-Situ Lunar Geochronology with KArLE (2022) (0)
In Situ Dating Experiments of Igneous Rocks Using the KArLE Instrument: A Case Study for Approximately 380 Ma Basaltic Rocks (2018) (0)
Experimental Study of Serpentinization Reactions (2004) (0)
The Lunar Quest Program and the International Lunar Network (ILN) (2009) (0)
In Situ Dating Experiments of Igneous Rocks Using the Potassium-Argon Laser Experiment (KArLE) Instrument: A Case Study for 380 Ma Basaltic Rocks (2018) (0)
The Effects of Permeability-driven Water Transport on the Evolution of CM Parent Bodies (2006) (0)
Geochronology as a Framework for Planetary History through 2050 (2017) (0)
Catching Constrains on the Parent Body Genesis of Mesosiderites and a Possible Link to HED (Howardite-Eucrite-Diogenite) Meteorites - A New Hope? (2016) (0)
Toward the next TRL of KArLE (in situ geochronology for planetary experiment) (2015) (0)
Lunar Flashlight and Near Earth Asteroid Scout: Exploration Science Using Cubesats (2015) (0)
Simulating Three Dimensional Regolith Transport with the Cratered Terrain Evolution Model (2015) (0)
A Two-Step KAr Experiment on Mars : Dating the Diagenetic Formation of Jarosite from Amazonian Groundwaters Journal Item (2018) (0)
The Bombardment History of Solar System, as Told by Lunar and other Antarctic Meteorites (2017) (0)
The Antarctic Search for Meteorites (ANSMET) (2014) (0)
LUNAR FLASHLIGHT : SEARCHING FOR ACCESSIBLE WATER (2019) (0)
Payload Design for the Lunar Flashlight Mission: Illuminating the Moon's South Pole (2017) (0)
Prospects for Dating the South Pole-Aitken Basin Through Impact-Melt Rock Samples (2016) (0)
The Onset of the Cataclysm: In Situ Dating of a Nearside Basin Impact-Melt Sheet Or, There and Not Back Again (2017) (0)
FURTHER DEVELOPMENT OF SMALL ROBOTIC LANDERS FOR PLANETARY MISSIONS (2011) (0)
NASA Lunar Robotics for Science and Exploration (2008) (0)
Characterizing the Effect of Shock on Isotopic Ages I: Ferroan Anorthosite Major Elements (2009) (0)
Planets, Moons and Meteorites, Oh My! (2016) (0)
The Miniaturised Mössbauer Spectrometers MIMOS II on MER: Four Years of Operation - A Summary (2008) (0)
Preparing for Geophysical Science Enabled by Crewed and Robotic Missions on the Surface of the Moon (2020) (0)
Lateral Mixing of Basin Ejecta Using Impact Melt Samples at the Apollo 16 Landing Site (2020) (0)
Searching for Nectaris Basin Impact Melt Rocks (2015) (0)
Using the potassium‐argon laser experiment (KArLE) to date ancient, low‐K chondritic meteorites (2023) (0)
Groundbreaking Mars Sample Return for Science and Human Exploration (2012) (0)
Chemical Composition by the APXS along the Downhill Traverse of the Mars Exploration Rover Spirit at Gusev Crater (2006) (0)
Why asteroidal alteration was isochemical: High porosity not equal high permeability (2006) (0)
Strategic Investment in Laboratory Analysis of Planetary Materials as Ground Truth for Solar System Exploration (2021) (0)
The Peregrine Ion Trap Mass Spectrometer (PITMS): A CLPS-Delivered Ion-Trap Mass Spectrometer for In-Situ Studies of the Lunar Water Cycle (2020) (0)
USING ROVER-ANALOGOUS INSTRUMENTATION TO DISCRIMINATE BETWEEN VOLCANIC AND SEDIMENTARY PROCESS IN SUCCESSIONS DOMINATED BY IGNEOUS CHEMISTRY: THE TJÖRNES, ICELAND EXAMPLE (2022) (0)
The Planetary Science Workforce: Goals Through 2050 (2017) (0)
The MSFC Noble Gas Research Laboratory (MNGRL): A NASA Investigator Facility (2016) (0)
Using a Very Big Rocket to take Very Small Satellites to Very Far Places (2017) (0)
Chondrule Formation by Open-System Melting of Solar Nebular Condensates (1999) (0)
The Chronology Problem in the Outer Solar System: Constraining the “WHEN” of Major Dynamical and Geological Events (2021) (0)
PLANETARY GEOCHRONOLOGY: WHAT CAN BE DONE IN SITU, AND WHAT NEEDS SAMPLE (2010) (0)
A Framework for Lunar Surface Science Exploration (2017) (0)
ANOTHER METEORITE ON MARS AND THIRD OF A (2009) (0)
The Moon is a Planet Too: Lunar Science and Robotic Exploration (2008) (0)
SAMPLES AND NOTIONAL CACHES FROM JEZERO CRATER AND BEYOND FOR MARS SAMPLE RETURN (2021) (0)
YTTRIUM SILICATE IN LUNAR TROCTOLITIC ANORTHOSITE 76335 (2009) (0)
Characterization of Impact Melt Facies in Mare Crisium (2018) (0)
Developement of the Potassium-Argon Laser Experiment (KArLE) for In Situ Geochronology (2012) (0)
Next Steps on the Moon Report of the Specific Action Team (2018) (0)
A Glint of Light on Broken Glass: Solar System Bombardment from Apollo Samples (2019) (0)
Recent Improvements to Selenochronology by Samples and Missions and Models (2011) (0)
HAWKEYE: DECIPHERING LITHOLOGIC CLUES REMOTELY AND RAPIDLY FROM STATIONARY AND MOBILE PLATFORMS (2014) (0)
Acid-Sulfate Alteration at Gusev Crater and Across Mars: High-SiO2 Residues and Ferric Sulfate Precipitates (2017) (0)
Creating Crater Catalogs of the Apollo 15-16-17 Landing Sites (2020) (0)
Updates of the KArLE Experiment: New Libs Calibration Under High Vacuum for the Quantification of Potassium in Basalt for In Situ Geochronology (2014) (0)
Ensuring Inclusivity in the 2023 Planetary Science and Astrobiology Decadal Survey (2021) (0)
Clast Selection and Metallographic Cooling Rates: Initial Results on Type 1A and 2A Mesosiderites (2017) (0)
pdfFirst Landing Site / Exploration Zone Workshop for Human Missions to the Surface of Mars ( 2015 ) (2015) (0)
AR-40 AR-39 Age of an Impact-Melt Lithology in DHOFAR 961 (2016) (0)
Testing Rover Science Protocols to Identify Possible Biosignatures on Mars: Achieving Sampling Goals Under a Highly Constrained Time Line (2022) (0)
The Potassium - Argon Laser Experiment ( KArLE): Design Concepts (2017) (0)
Strength In Diversity: Small Bodies as the Most Important Objects in Planetary Sciences (2020) (0)
The Lunar Cataclysm and How LRO Can Help Test It (2009) (0)
Using Dust from Asteroids as Regolith Microsamples (2015) (0)
Basaltic Lithic Clasts in Type 1A and 2A Mesosiderites: Trend Towards a Eucritic Composition (2017) (0)
What Do Impact Melt Rocks from the Nectaris Basin Look Like, and Where Can We Find Them? (2015) (0)
Lost on the Way to the Moon? Try the Lunar Exploration Roadmap (2020) (0)
Enabling Global Lunar Sample Return and Life-Detection Studies Using a Deep-Space Gateway (2018) (0)
Scientific analogs and the development of human mission architectures for the Moon, deep space and Mars (2016) (0)
Books and Multimedia Reviews: Meteorites and Their Parent Planets, Second Edition, by Harry McSween, Jr. (2000) (0)
Continued Development of in Situ Geochronology for Planetary Missions (2015) (0)
METEORITES ON MARS CAN HELP TO DECIPHER THE RED PLANET – SHOULD THEY BE CONSIDERED AS SAMPLES OF OPPORTUNITY FOR MARS SAMPLE RETURN? (2018) (0)
Volumetric Measurement of Ultra-Long Ablation of Geologic Samples Under High Vacuum for In Situ Dating of Planetary Samples (2015) (0)
In-Situ Studies of the Lunar Water Cycle by Ion Trap Mass Spectrometry (2021) (0)
Perseverance rover sampling activities at South Séítah , Jezero crater (2022) (0)
Lunar Flashlight: Searching for Accessible Water Frost (2019) (0)
Next-generation Strategies for Human Lunar Sorties (2013) (0)
Water Transport and the Evolution of CM Parent Bodies (2014) (0)
PITMS: an Ion Trap Mass Spectrometer for In-Situ Studies of the Lunar Water Cycle on the NASA (2021) (0)
Go Where You Know: Begin Mars Human Exploration at Previous Equatorial Landing Sites (2020) (0)
Mars Exploration Rover Mission (2008) (0)
Returning to the Moon: Building the Systems Engineering Base for Successful Science Missions (2018) (0)
Lunar Missions and Datasets (2009) (0)
LUNAR FLASHLIGHT: A 6U CUBESAT USING SOLAR SAIL PROPULSION TO ORBIT THE MOON AND ILLUMINATE PERMANENTLY-SHADOWED REGIONS IN A SEARCH FOR WATER (2014) (0)
USING ROVER-ANALOGOUS INSTRUMENTATION TO DISCRIMINATE BETWEEN VOLCANIC AND SEDIMENTARY PROCESS IN SUCCESSIONS DOMINATED BY IGNEOUS CHEMISTRY (2021) (0)
Soil Components in Heterogeneous Impact Glass in Martian Meteorite EETA79001 (2010) (0)
APPLICATION OF THE POTASSIUM-ARGON LASER EXPERIMENT (KArLE) TO ORDINARY (2021) (0)
Compositional and Geochronological Constraints on the Lunar Cataclysm from Planetary Samples (2008) (0)
YERKES CRATER CENTRAL PEAK AS A SAMPLE SITE FOR DATING CRISIUM BASIN (2019) (0)
Impact Ejecta Clouds : A Scientific Resource for Understanding Asteroid Origins and Evolution (2018) (0)

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