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Lunar Crater Ejecta Distribution and Characterization Using Mini-RF and LROC-WAC Data


Affiliations
1 PLANEX, Physical Research Laboratory, Ahmedabad 380 009, India
 

A detailed quantification of ejecta matter for small craters (<6 km) on the basis of its amount of spatial deposition has been attempted in this study. We used scattering information derived from circular polarization ratio (CPR) and displaying intensity (S1) from Miniature Radio Frequency (Mini-RF) instrument on-board Lunar Reconnaissance Orbiter (LRO), to characterize the radar backscatter of a large number of craters from Rimae Sirsalis, a highland-mare mixed region for deriving spatial ejecta blanket coverage. The radar derived ejecta blanket extent has been further compared with the amount derived by optical sensor for understanding and assessing the relative merits. In order to accurately estimate the total ejecta deposition, its characterization into finer and coarser material has also been done. We have studied the relation between the measured ejecta extents to the crater geometrical parameters and observed a strong relation between the crater ejecta extent and crater diameter using power or polynomial function.

Keywords

Impact Processes, Lunar Crater, Planetary Dynamics, Radar, Spatial Ejecta Distribution.
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  • Lunar Crater Ejecta Distribution and Characterization Using Mini-RF and LROC-WAC Data

Abstract Views: 254  |  PDF Views: 83

Authors

Ami J. Desai
PLANEX, Physical Research Laboratory, Ahmedabad 380 009, India
Shiv Mohan
PLANEX, Physical Research Laboratory, Ahmedabad 380 009, India
Sripada V. S. Murty
PLANEX, Physical Research Laboratory, Ahmedabad 380 009, India

Abstract


A detailed quantification of ejecta matter for small craters (<6 km) on the basis of its amount of spatial deposition has been attempted in this study. We used scattering information derived from circular polarization ratio (CPR) and displaying intensity (S1) from Miniature Radio Frequency (Mini-RF) instrument on-board Lunar Reconnaissance Orbiter (LRO), to characterize the radar backscatter of a large number of craters from Rimae Sirsalis, a highland-mare mixed region for deriving spatial ejecta blanket coverage. The radar derived ejecta blanket extent has been further compared with the amount derived by optical sensor for understanding and assessing the relative merits. In order to accurately estimate the total ejecta deposition, its characterization into finer and coarser material has also been done. We have studied the relation between the measured ejecta extents to the crater geometrical parameters and observed a strong relation between the crater ejecta extent and crater diameter using power or polynomial function.

Keywords


Impact Processes, Lunar Crater, Planetary Dynamics, Radar, Spatial Ejecta Distribution.



DOI: https://doi.org/10.18520/cs%2Fv107%2Fi5%2F824-831