Add to ORKGThe Almahata Sitta (AhS) polymict ureilite is the first meteorite to originate from a spectrally classified asteroid (2008 TC3) [1-3], and provides an unprecedented opportunity to correlate properties of meteorites with those of their parent asteroid. AhS is also unique because its fragments comprise a wide variety of meteorite types. Of approximately140 stones studied to-date, ~70% are ureilites (carbon-rich ultramafic achondrites) and 30% are various types of chondrites [4,5]. None of these show contacts between ureilitic and chondritic lithologies. It has been inferred that 2008 TC3 was loosely aggregated, so that it disintegrated in the atmosphere and only its most coherent clasts fell as individual stones [1,3,5]. Understanding the str...
Ureilites are ultramafic achondrite meteorites that have experienced igneous processing whilst retai...
Ureilites are ultramafic achondrites composed of olivine and pyroxene, with minor elemental C, mostl...
On October 7, 2008, a small F-class asteroid, 2008 TC3, exploded in Earth\u27s atmos...
Almahata Sitta (AhS) is the first meteorite to originate from an asteroid (2008 TC3) that had been s...
On October 7, 2008, the asteroid 2008 TC3 exploded as it entered the Earth’s atmosphere, producing s...
Almahata Sitta (AhS), an anomalous polymict ureilite, is the first meteorite observed to originate f...
Analysis of samples returned to terrestrial laboratories enables more precise measurements and a wid...
Asteroid 2008 TC3 (approximately 4m diameter) was tracked and studied in space for approximately 19h...
Asteroid 2008 TC3 (approximately 4 m diameter) was tracked and studied in space for approximately 19...
Polymict ureilites are brecciated ultramafic meteorites that contain a variety of single mineral and...
There is an increasing number of Cr-O-Ti isotope studies that show solar system materials are divide...
There is an increasing number of Cr-O-Ti isotope studies that show that solar system materials are d...
Prior to recovery the Almahata Sitta fall was observed as the asteroid 2008 TC3 on an Earth-bound tr...
Almahata Sitta (hereafter Alma) is an anomalous, polymict ureilite. Anomalous features include low a...
The Almahata Sitta meteorite is the first case of recovered extraterrestrial material originating fr...
Ureilites are ultramafic achondrite meteorites that have experienced igneous processing whilst retai...
Ureilites are ultramafic achondrites composed of olivine and pyroxene, with minor elemental C, mostl...
On October 7, 2008, a small F-class asteroid, 2008 TC3, exploded in Earth\u27s atmos...
Almahata Sitta (AhS) is the first meteorite to originate from an asteroid (2008 TC3) that had been s...
On October 7, 2008, the asteroid 2008 TC3 exploded as it entered the Earth’s atmosphere, producing s...
Almahata Sitta (AhS), an anomalous polymict ureilite, is the first meteorite observed to originate f...
Analysis of samples returned to terrestrial laboratories enables more precise measurements and a wid...
Asteroid 2008 TC3 (approximately 4m diameter) was tracked and studied in space for approximately 19h...
Asteroid 2008 TC3 (approximately 4 m diameter) was tracked and studied in space for approximately 19...
Polymict ureilites are brecciated ultramafic meteorites that contain a variety of single mineral and...
There is an increasing number of Cr-O-Ti isotope studies that show solar system materials are divide...
There is an increasing number of Cr-O-Ti isotope studies that show that solar system materials are d...
Prior to recovery the Almahata Sitta fall was observed as the asteroid 2008 TC3 on an Earth-bound tr...
Almahata Sitta (hereafter Alma) is an anomalous, polymict ureilite. Anomalous features include low a...
The Almahata Sitta meteorite is the first case of recovered extraterrestrial material originating fr...
Ureilites are ultramafic achondrite meteorites that have experienced igneous processing whilst retai...
Ureilites are ultramafic achondrites composed of olivine and pyroxene, with minor elemental C, mostl...
On October 7, 2008, a small F-class asteroid, 2008 TC3, exploded in Earth\u27s atmos...