Add to ORKGThe otherwise homogeneous surface of Ceres is dotted with hundreds of anomalously bright, predominantly carbonate-bearing areas, termed “faculae,” with Bond albedos ranging from ∼0.02 to >0.5. Here, we classify and map faculae globally to characterize their geological setting, assess potential mechanisms for their formation and destruction, and gain insight into the processes affecting the Ceres surface and near-surface. Faculae were found to occur in four distinct geological settings, associated predominantly with impact craters: (1) crater pits, peaks, or floor fractures (floor faculae), (2) crater rims or walls (rim/wall faculae), (3) bright ejecta blankets, and (4) the mountain Ahuna Mons. Floor faculae were identified in eight large, d...
### INTRODUCTION Observations of Ceres, the largest object in the asteroid belt, have suggested that...
The distinctive bright regions within Occator crater are one of the most remarkable discoveries of t...
Ceres’ surface has commonly been linked with carbonaceous chondrites (CCs) by ground‐based telescopi...
The otherwise homogeneous surface of Ceres is dotted with hundreds of anomalously bright, predominan...
Before acquiring highest-resolution data of Ceres, questions remained about the emplacement mechanis...
Dawn is the first spacecraft to visit and orbit Ceres, the largest object in the asteroid belt and t...
The Dawn Framing Camera repeatedly imaged Ceres’ North Pole quadrangle (Ac-1 Asari, latitudes >66°N)...
At the beginning of the Ceres investigation, the Dawn-NASA mission discovered a large bright spot (B...
The geology of the outstanding crater Occator on Ceres has been studied by combining highest resolut...
We present a global spectrophotometric characterization of the Ceres surface using Dawn Framing Came...
The Dawn spacecraft arrived at dwarf planet Ceres in spring 2015 and imaged its surface from four su...
We conducted a geologic mapping investigation of Dawn spacecraft data to determine the geologic hist...
Impact craters of different geological ages, sizes and morphologies are not only the most obvious su...
We conducted geologic mapping of the Urvara (Ac-13) and Yalode (Ac-14) Quadrangles (21–66°S, 180–360...
abstract: Asteroids provide fundamental clues to the formation and evolution of planetesimals. Colli...
### INTRODUCTION Observations of Ceres, the largest object in the asteroid belt, have suggested that...
The distinctive bright regions within Occator crater are one of the most remarkable discoveries of t...
Ceres’ surface has commonly been linked with carbonaceous chondrites (CCs) by ground‐based telescopi...
The otherwise homogeneous surface of Ceres is dotted with hundreds of anomalously bright, predominan...
Before acquiring highest-resolution data of Ceres, questions remained about the emplacement mechanis...
Dawn is the first spacecraft to visit and orbit Ceres, the largest object in the asteroid belt and t...
The Dawn Framing Camera repeatedly imaged Ceres’ North Pole quadrangle (Ac-1 Asari, latitudes >66°N)...
At the beginning of the Ceres investigation, the Dawn-NASA mission discovered a large bright spot (B...
The geology of the outstanding crater Occator on Ceres has been studied by combining highest resolut...
We present a global spectrophotometric characterization of the Ceres surface using Dawn Framing Came...
The Dawn spacecraft arrived at dwarf planet Ceres in spring 2015 and imaged its surface from four su...
We conducted a geologic mapping investigation of Dawn spacecraft data to determine the geologic hist...
Impact craters of different geological ages, sizes and morphologies are not only the most obvious su...
We conducted geologic mapping of the Urvara (Ac-13) and Yalode (Ac-14) Quadrangles (21–66°S, 180–360...
abstract: Asteroids provide fundamental clues to the formation and evolution of planetesimals. Colli...
### INTRODUCTION Observations of Ceres, the largest object in the asteroid belt, have suggested that...
The distinctive bright regions within Occator crater are one of the most remarkable discoveries of t...
Ceres’ surface has commonly been linked with carbonaceous chondrites (CCs) by ground‐based telescopi...