MirandaObserved geology, photometry, and geophysical data are used to examine various processes and properties that may have contributed to Maranda's evolution. Global tectonics and surface flow features constrain the possible heating mechanisms and materials. Statistics on impact craters and comparisons with other satellites suggest that the impactor-source population evolved through time and that ejecta mantling has resurfaced significant portions of the surface. It is proposed that the coronae, which are unique to Miranda, were formed by relaxation of topographic highs, by lithospheric stress driven by intensity anomalies in the asthenosphere, or by diapirs either breeching the surface or feeding large-scale volcanic flooding through preexisting crack structure.
Document ID
19920036093
Acquisition Source
Legacy CDMS
Document Type
Conference Proceedings
Authors
Greenberg, R. (Arizona Univ. Tucson, AZ, United States)
Croft, S. K. (Arizona Univ. Tucson, AZ, United States)
Janes, D. M. (Arizona Univ. Tucson, AZ, United States)
Kargel, J. S. (Arizona Univ. Tucson, AZ, United States)
Lebofsky, L. A. (Arizona Univ. Tucson, AZ, United States)
Lunine, J. I. (Arizona Univ. Tucson, AZ, United States)
Marcialis, R. L. (Arizona Univ. Tucson, AZ, United States)
Melosh, H. J. (Arizona Univ. Tucson, AZ, United States)
Ojakangas, G. W. (Arizona Univ. Tucson, AZ, United States)
Strom, R. G. (Arizona, University Tucson, United States)