Temperatures of the Lacus Mortis Region of the Moon

Jean‐Pierre Williams; Benjamin T. Greenhagen; Kristen A. Bennett; David A. Paige; Nandita Kumari; Caitlin J. Ahrens; Lior Rubanenko; Tyler M. Powell; Parvathy Prem; David T. Blewett; Patrick S. Russell; Paul O. Hayne; Mark T. Sullivan

doi:10.1029/2021EA001966

Earth and Space Science (Feb 2022)

Temperatures of the Lacus Mortis Region of the Moon

Jean‐Pierre Williams,
Benjamin T. Greenhagen,
Kristen A. Bennett,
David A. Paige,
Nandita Kumari,
Caitlin J. Ahrens,
Lior Rubanenko,
Tyler M. Powell,
Parvathy Prem,
David T. Blewett,
Patrick S. Russell,
Paul O. Hayne,
Mark T. Sullivan

Affiliations

Jean‐Pierre Williams: Earth, Planetary, and Space Sciences University of California Los Angeles Los Angeles CA USA
Benjamin T. Greenhagen: Johns Hopkins University Applied Physics Laboratory Laurel MD USA
Kristen A. Bennett: U.S. Geological Survey Astrogeology Science Center Flagstaff AZ USA
David A. Paige: Earth, Planetary, and Space Sciences University of California Los Angeles Los Angeles CA USA
Nandita Kumari: Department of Geosciences Stony Brook University Stony Brook NY USA
Caitlin J. Ahrens: Solar System Exploration Division NASA Goddard Space Flight Center Greenbelt MD USA
Lior Rubanenko: Department of Geological Sciences Stanford University Stanford CA USA
Tyler M. Powell: Earth, Planetary, and Space Sciences University of California Los Angeles Los Angeles CA USA
Parvathy Prem: Johns Hopkins University Applied Physics Laboratory Laurel MD USA
David T. Blewett: Johns Hopkins University Applied Physics Laboratory Laurel MD USA
Patrick S. Russell: Earth, Planetary, and Space Sciences University of California Los Angeles Los Angeles CA USA
Paul O. Hayne: Astrophysical and Planetary Sciences University of Colorado Boulder Boulder CO USA
Mark T. Sullivan: Earth, Planetary, and Space Sciences University of California Los Angeles Los Angeles CA USA

DOI: https://doi.org/10.1029/2021EA001966
Journal volume & issue: Vol. 9, no. 2
pp. n/a – n/a

Abstract

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Abstract Over 11 years of data acquired by the Diviner Lunar Radiometer Experiment instrument aboard Lunar Reconnaissance Orbiter have been compiled into a comprehensive data set of surface temperatures in the Lacus Mortis region which includes the landing ellipse of the Astrobotic Mission One lander mission. These data provide diurnal brightness temperatures at 128 pixels per degree (ppd) spatial resolution and 0.1 hr of local time resolution. From this data set, we highlight several features that display variations in radiative and thermophysical properties in the Lacus Mortis region and characterize the temperatures of the Astrobotic Mission One landing ellipse. We identify distinctly contrasting properties of materials in the walls of Bürg crater, hummocks of materials on the southeast margin of the mare basalts, and materials exposed or excavated by impacts. Additionally, we describe an exceptionally rocky fault scarp that predates the formation of Bürg crater suggesting the observed boulders are replenished on a timescale <1 Ga. Within the Astrobotic landing ellipse, temperatures are observed to range from ∼88 to ∼359 K with sunrise and sunset local times constrained to 5.8–6.3 hr and 17.8 and 18.1 hr respectively.

Published in Earth and Space Science

ISSN: 2333-5084 (Online)
Publisher: American Geophysical Union (AGU)
Country of publisher: United States
LCC subjects: Science: Astronomy; Science: Geology
Website: http://agupubs.onlinelibrary.wiley.com/agu/journal/10.1002/(ISSN)2333-5084/

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