The scientist’s investigation covers issues in Impact crater, Mineralogy, Astrobiology, Geochemistry and Crust. His Impact crater study incorporates themes from Albedo, KREEP, Regolith and Asteroid. His work carried out in the field of Mineralogy brings together such families of science as Neutron, Clementine, South Pole–Aitken basin and Lunar swirls.
Paul G. Lucey combines topics linked to Remote sensing with his work on South Pole–Aitken basin. Paul G. Lucey combines subjects such as Structural basin and Plagioclase with his study of Geochemistry. His work deals with themes such as Lunar geologic timescale and Anorthosite, which intersect with Crust.
Paul G. Lucey focuses on Remote sensing, Mineralogy, Astrobiology, Impact crater and Hyperspectral imaging. His Remote sensing research includes themes of Spectrometer, Infrared and Optics. His biological study deals with issues like Spectral line, which deal with fields such as Analytical chemistry.
His Astrobiology research focuses on Asteroid, Solar System, Meteorite, Space weathering and Planetary science. Paul G. Lucey interconnects Albedo, Geochemistry, Anorthosite and Regolith in the investigation of issues within Impact crater. His study in Geochemistry concentrates on Basalt, Geology of the Moon, Mafic, Mantle and Igneous rock.
His main research concerns Remote sensing, Astrobiology, Hyperspectral imaging, Diviner and Space weathering. The Remote sensing study combines topics in areas such as Spectrometer, Laser and Optics. His studies deal with areas such as Impact crater, Orbiter and Thermal infrared as well as Diviner.
His Space weathering study combines topics from a wide range of disciplines, such as Regolith and Meteorite. His biological study spans a wide range of topics, including Mineralogy, Olivine and Crust. Paul G. Lucey regularly links together related areas like Radiative transfer in his Mineralogy studies.
Paul G. Lucey spends much of his time researching Remote sensing, Space weathering, Regolith, Impact crater and Mineralogy. His Remote sensing research is multidisciplinary, incorporating elements of Radiative transfer, Spectrometer and Optics. Space weathering is a subfield of Astrobiology that Paul G. Lucey investigates.
His Regolith study which covers Geophysics that intersects with Topography of the Moon and Front. His studies in Impact crater integrate themes in fields like Longitude and Magnetosphere. His Mineralogy research incorporates themes from Spectral line, Geochemistry, Mafic and Plagioclase.
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Lunar iron and titanium abundance algorithms based on final processing of Clementine ultraviolet‐visible images
Paul G. Lucey;David T. Blewett;Bradley L. Jolliff.
Journal of Geophysical Research (2000)
Mapping the FeO and TiO2 content of the lunar surface with multispectral imagery
Paul G. Lucey;David T. Blewett;B. Ray Hawke.
Journal of Geophysical Research (1998)
The Clementine Mission to the Moon: Scientific Overview
Stewart Nozette;P. Rustan;L. P. Pleasance;D. M. Horan.
Abundance and Distribution of Iron on the Moon
Paul G. Lucey;G. Jeffrey Taylor;Erick Malaret.
Initial observations from the Lunar Orbiter Laser Altimeter (LOLA)
David Edmund Smith;David Edmund Smith;Maria Zuber;Gregory A. Neumann;Frank G. Lemoine.
Geophysical Research Letters (2010)
Diviner Lunar Radiometer Observations of Cold Traps in the Moon’s South Polar Region
David A. Paige;Matthew A. Siegler;Jo Ann Zhang;Paul O. Hayne.
Understanding the Lunar Surface and Space-Moon Interactions
Paul Lucey;Randy L. Korotev;Jeffrey J. Gillis;Larry A. Taylor.
Reviews in Mineralogy & Geochemistry (2006)
Imaging of lunar surface maturity
Paul G. Lucey;David T. Blewett;G. Jeffrey Taylor;B. Ray Hawke.
Journal of Geophysical Research (2000)
Direct evidence of surface exposed water ice in the lunar polar regions
Shuai Li;Shuai Li;Paul G. Lucey;Ralph E. Milliken;Paul O. Hayne.
Proceedings of the National Academy of Sciences of the United States of America (2018)
NEAR at eros: imaging and spectral results
J. Veverka;M. Robinson;P. Thomas;S. Murchie.
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