TY  - GEN
N2  - Thermal inertia was estimated at high resolution from a data set within Gale Crater collected by the Compact Reconnaissance Imaging Spectrometer for Mars (CRISM) instrument on board the Mars Reconnaissance Orbiter. This result was then analysed alongside observations from the Curiosity rover to characterize surface properties within the scene, especially in and around the Glen Torridon region within Gale Crater.
This data set consists of the CRISM scene (scene id FRT00021C92) processed to single-scattering albedo using the WUSTL hyperspectral processing pipeline (see https://www.hou.usra.edu/meetings/lpsc2019/pdf/2094.pdf, https://www.hou.usra.edu/meetings/lpsc2019/pdf/2690.pdf for details), related summary products derived from single-scattering albedo, thermal inertia estimates, and additional products generated to characterize the Greenheugh pediment region.
This data set is designed to accompany a paper submitted in 2021 by Christian et al. to the Glen Torridon special issue of the Journal of Geophysical Research: Planets.
DO  - 10.7936/jznj-s510
DO  - DOI
AB  - Thermal inertia was estimated at high resolution from a data set within Gale Crater collected by the Compact Reconnaissance Imaging Spectrometer for Mars (CRISM) instrument on board the Mars Reconnaissance Orbiter. This result was then analysed alongside observations from the Curiosity rover to characterize surface properties within the scene, especially in and around the Glen Torridon region within Gale Crater.
This data set consists of the CRISM scene (scene id FRT00021C92) processed to single-scattering albedo using the WUSTL hyperspectral processing pipeline (see https://www.hou.usra.edu/meetings/lpsc2019/pdf/2094.pdf, https://www.hou.usra.edu/meetings/lpsc2019/pdf/2690.pdf for details), related summary products derived from single-scattering albedo, thermal inertia estimates, and additional products generated to characterize the Greenheugh pediment region.
This data set is designed to accompany a paper submitted in 2021 by Christian et al. to the Glen Torridon special issue of the Journal of Geophysical Research: Planets.
AD  - Washington University in St. Louis
AD  - Washington University in St. Louis
AD  - Washington University in St. Louis
AD  - Jet Propulsion Laboratory
AD  - Planetary Science Institute
T1  - CRISM-based High Spatial Resolution Thermal Inertia Mapping along Curiosity's Traverses in Gale Crater
DA  - 2021-08-20
AU  - Christian, John
AU  - Arvidson, Raymond
AU  - O'Sullivan, Joseph
AU  - Vasavada, Ashwin
AU  - Weitz, Catherine
L1  - https://data.library.wustl.edu/record/84/files/doi107936jznjs510_christian_dip.zip
L1  - https://data.library.wustl.edu/record/84/files/doi107936jznjs510_christian_readme.txt
LA  - eng
PY  - 2021-08-20
ID  - 84
L4  - https://data.library.wustl.edu/record/84/files/doi107936jznjs510_christian_dip.zip
L4  - https://data.library.wustl.edu/record/84/files/doi107936jznjs510_christian_readme.txt
KW  - Physical sciences
KW  - Thermal Inertia
KW  - Gale Crater
KW  - CRISM
KW  - Curiosity
TI  - CRISM-based High Spatial Resolution Thermal Inertia Mapping along Curiosity's Traverses in Gale Crater
Y1  - 2021-08-20
L2  - https://data.library.wustl.edu/record/84/files/doi107936jznjs510_christian_dip.zip
L2  - https://data.library.wustl.edu/record/84/files/doi107936jznjs510_christian_readme.txt
LK  - https://data.library.wustl.edu/record/84/files/doi107936jznjs510_christian_dip.zip
LK  - https://data.library.wustl.edu/record/84/files/doi107936jznjs510_christian_readme.txt
UR  - https://data.library.wustl.edu/record/84/files/doi107936jznjs510_christian_dip.zip
UR  - https://data.library.wustl.edu/record/84/files/doi107936jznjs510_christian_readme.txt
ER  -