Add to ORKGObservations of impact craters on Venus by Magellan yield important insights into: (1) atmospheric effects on the formation of impact craters and their attendant ejecta deposits and (2) the resurfacing history of the planet. Most craters smaller than 15 km are classified as irregular; they possess irregularly shaped rims, and multiple hummocky floors. The irregular nature of these craters is interpreted to be the consequence of breakup and dispersion of incoming meteoroids by the dense atmosphere. Two major ejecta facies of venusian impact craters are hummocky ejecta and outer ejecta. A number of craters documented in the Magellan images possess often non-radial, flow-like ejecta indicative of a low viscosity materials. Approximately half o...
The pressure of the dense atmosphere of Venus significantly changes the appearance of ejecta deposit...
To understand the impact cratering record on Venus, we investigate two distinct resurfacing styles: ...
Highlights of the research include geologic signatures of impact energy and atmospheric response to ...
Early results of the Magellan mission to Venus show that almost all of the observed impact craters a...
Magellan has revealed an ensemble of impact craters on Venus that is unique in many important ways. ...
A first-order impact crater aging model is presented based on observations of the global crater popu...
The contacts between 34 geological/geomorphic terrain units in the northern quarter of Venus mapped ...
Compared with volcanism and tectonism, impact cratering on Venus has played an overall minor role in...
Analysis of the cratering records on the Moon, Mercury, and Mars have shown similar size-frequency d...
The consensus regarding interpretation of Magellan radar imagery assigns Venus a young volcanic surf...
A paraboloidal bow shock model is developed in order to estimate the surface distribution of gas sho...
High-resolution radar images from the Magellan spacecraft have allowed us to perform a detailed stud...
To understand the impact cratering record on Venus, we investigate two distinct resurfacing styles: ...
A paraboloidal bow shock model is developed in order to estimate the surface distribution of gas sho...
To understand the impact cratering record on Venus, we investigate two distinct resurfacing styles: ...
The pressure of the dense atmosphere of Venus significantly changes the appearance of ejecta deposit...
To understand the impact cratering record on Venus, we investigate two distinct resurfacing styles: ...
Highlights of the research include geologic signatures of impact energy and atmospheric response to ...
Early results of the Magellan mission to Venus show that almost all of the observed impact craters a...
Magellan has revealed an ensemble of impact craters on Venus that is unique in many important ways. ...
A first-order impact crater aging model is presented based on observations of the global crater popu...
The contacts between 34 geological/geomorphic terrain units in the northern quarter of Venus mapped ...
Compared with volcanism and tectonism, impact cratering on Venus has played an overall minor role in...
Analysis of the cratering records on the Moon, Mercury, and Mars have shown similar size-frequency d...
The consensus regarding interpretation of Magellan radar imagery assigns Venus a young volcanic surf...
A paraboloidal bow shock model is developed in order to estimate the surface distribution of gas sho...
High-resolution radar images from the Magellan spacecraft have allowed us to perform a detailed stud...
To understand the impact cratering record on Venus, we investigate two distinct resurfacing styles: ...
A paraboloidal bow shock model is developed in order to estimate the surface distribution of gas sho...
To understand the impact cratering record on Venus, we investigate two distinct resurfacing styles: ...
The pressure of the dense atmosphere of Venus significantly changes the appearance of ejecta deposit...
To understand the impact cratering record on Venus, we investigate two distinct resurfacing styles: ...
Highlights of the research include geologic signatures of impact energy and atmospheric response to ...