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Impact Ejecta Characterization for Small-Sized Fresh and Degraded Lunar Craters Using Radar Data


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

Ejecta distribution studies for large-sized (>10 km) lunar craters have been carried out earlier, but simi-lar studies on smaller craters are lacking mainly due to data resolution limitations. Here we present a de-tailed quantification on spatial deposition of ejecta for small-sized lunar craters (<6 km). Using data from Mini RF instrument on-board NASA's Lunar Recon-naissance Orbiter, four Stokes parameters that differ-entiate and describe the observed backscattered electromagnetic field are calculated. We use the first Stokes parameter to investigate and estimate the spa-tial ejecta distribution for 98 small-sized fresh and de-graded craters from mare and highland regions. It is observed that ejecta distribution can be described using power law with crater diameter and depth/ diameter (d/D) ratio. Ejecta behaviour is analysed for both the terrain types, highland and mare, enabling us to understand the effect and dependency of target rock properties on the ejecta characteristics. Further, the d/D dependence has indicated that the relative de-gradation rate appears higher for highland region compared to mare region.

Keywords

Lunar Impact Craters, Radar, Spatial Ejecta Emplacement, Target Properties.
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  • Impact Ejecta Characterization for Small-Sized Fresh and Degraded Lunar Craters Using Radar Data

Abstract Views: 394  |  PDF Views: 134

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


Ejecta distribution studies for large-sized (>10 km) lunar craters have been carried out earlier, but simi-lar studies on smaller craters are lacking mainly due to data resolution limitations. Here we present a de-tailed quantification on spatial deposition of ejecta for small-sized lunar craters (<6 km). Using data from Mini RF instrument on-board NASA's Lunar Recon-naissance Orbiter, four Stokes parameters that differ-entiate and describe the observed backscattered electromagnetic field are calculated. We use the first Stokes parameter to investigate and estimate the spa-tial ejecta distribution for 98 small-sized fresh and de-graded craters from mare and highland regions. It is observed that ejecta distribution can be described using power law with crater diameter and depth/ diameter (d/D) ratio. Ejecta behaviour is analysed for both the terrain types, highland and mare, enabling us to understand the effect and dependency of target rock properties on the ejecta characteristics. Further, the d/D dependence has indicated that the relative de-gradation rate appears higher for highland region compared to mare region.

Keywords


Lunar Impact Craters, Radar, Spatial Ejecta Emplacement, Target Properties.



DOI: https://doi.org/10.18520/cs%2Fv110%2Fi10%2F1929-1938