Add to ORKGThe geology of the outstanding crater Occator on Ceres has been studied by combining highest resolution color images and other information from the DAWN mission. Thus, surface and sub-surface layers and geologic processes can be understood and interpreted in a consistent manner. In order to achieve this, morphometry, absolute surface unit ages, color, and the distribution of foci of activity were the key data. These data show that the ascent of brine from reservoir(s) at depth and deposition of its salts on the surface persisted much longer than initially thought possible as an immediate result of the primary impact. The youngest depositional processes of bright material occurred less than 2 Ma ago. Also, the bright Cerealia and Vinalia Fac...
Occator crater is perhaps the most distinct surface feature observed by NASA's Dawn spacecraft on th...
At the beginning of the Ceres investigation, the Dawn-NASA mission discovered a large bright spot (B...
We present a global spectrophotometric characterization of the Ceres surface using Dawn Framing Came...
The geology of the outstanding crater Occator on Ceres has been studied by combining highest resolut...
The geology of the outstanding crater Occator on Ceres has been studied by combining highest resolut...
Before acquiring highest-resolution data of Ceres, questions remained about the emplacement mechanis...
NASA’s Dawn mission revealed a partially differentiated Ceres that has experienced cryovolcanic acti...
Here we show using Dawn high-resolution stereo imaging and topography that Ceres’ unique composition...
The distinctive bright regions within Occator crater are one of the most remarkable discoveries of t...
The otherwise homogeneous surface of Ceres is dotted with hundreds of anomalously bright, predominan...
The 90.5-km Occator crater, with its peculiar and unique bright spots, is one of the most prominent ...
The Dawn Framing Camera repeatedly imaged Ceres’ North Pole quadrangle (Ac-1 Asari, latitudes >66°N)...
The distinctive bright regions within Occator crater are one of the most remarkable discoveries of t...
Dawn is the first spacecraft to visit and orbit Ceres, the largest object in the asteroid belt and t...
Ceres, the only dwarf planet in the inner Solar System, appears to be a relict ocean world. Data col...
Occator crater is perhaps the most distinct surface feature observed by NASA's Dawn spacecraft on th...
At the beginning of the Ceres investigation, the Dawn-NASA mission discovered a large bright spot (B...
We present a global spectrophotometric characterization of the Ceres surface using Dawn Framing Came...
The geology of the outstanding crater Occator on Ceres has been studied by combining highest resolut...
The geology of the outstanding crater Occator on Ceres has been studied by combining highest resolut...
Before acquiring highest-resolution data of Ceres, questions remained about the emplacement mechanis...
NASA’s Dawn mission revealed a partially differentiated Ceres that has experienced cryovolcanic acti...
Here we show using Dawn high-resolution stereo imaging and topography that Ceres’ unique composition...
The distinctive bright regions within Occator crater are one of the most remarkable discoveries of t...
The otherwise homogeneous surface of Ceres is dotted with hundreds of anomalously bright, predominan...
The 90.5-km Occator crater, with its peculiar and unique bright spots, is one of the most prominent ...
The Dawn Framing Camera repeatedly imaged Ceres’ North Pole quadrangle (Ac-1 Asari, latitudes >66°N)...
The distinctive bright regions within Occator crater are one of the most remarkable discoveries of t...
Dawn is the first spacecraft to visit and orbit Ceres, the largest object in the asteroid belt and t...
Ceres, the only dwarf planet in the inner Solar System, appears to be a relict ocean world. Data col...
Occator crater is perhaps the most distinct surface feature observed by NASA's Dawn spacecraft on th...
At the beginning of the Ceres investigation, the Dawn-NASA mission discovered a large bright spot (B...
We present a global spectrophotometric characterization of the Ceres surface using Dawn Framing Came...