(Unless otherwise stated, the copyright of the materials included belong to Jan Woreczko & Wadi.)
Szablon:Borovička (2015 arXiv)
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- | Borovička Jiří, Spurný Pavel, Brown Peter, (2015), '''Small Near-Earth Asteroids as a Source of Meteorites''', ''arXiv.org'', arXiv:1502.03307, 2015.<ref>bolidy/meteoryty: [[Benešov]], [[Jesenice]], [[Košice]], [[Križevci]], [[Morávka]]</ref> Plik [http://arxiv.org/abs/1502.03307 PDF] ({{!abs-ilink|:Szablon:Borovička (2015 arXiv)}}).<noinclude> | + | Borovička Jiří, Spurný Pavel, Brown Peter, (2015), '''Small Near-Earth Asteroids as a Source of Meteorites''', ''arXiv.org'', arXiv:1502.03307, 2015.<ref>bolidy/meteoryty: [[Benešov]], [[Jesenice]], [[Košice]], [[Križevci]], [[Morávka]]</ref> Plik [http://arxiv.org/abs/1502.03307 PDF] ({{!doi|10.2458/azu_uapress_9780816532131-ch014}}) ({{!abs-ilink|:Szablon:Borovička (2015 arXiv)}}).<noinclude> |
'''Abstract:''' Small asteroids intersecting Earth's orbit can deliver extraterrestrial rocks to the Earth, called meteorites. This process is accompanied by a luminous phenomena in the atmosphere, called bolides or fireballs. Observations of bolides provide pre-atmospheric orbits of meteorites, physical and chemical properties of small asteroids, and the flux (i.e. frequency of impacts) of bodies at the Earth in the centimeter to decameter size range. In this chapter we explain the processes occurring during the penetration of cosmic bodies through the atmosphere and review the methods of bolide observations. We compile available data on the fireballs associated with 22 instrumentally observed meteorite falls. Among them are the heterogeneous falls Almahata Sitta (2008 TC<sub>3</sub>) and [[Benešov]], which revolutionized our view on the structure and composition of small asteroids, the Příbram-Neuschwanstein orbital pair, carbonaceous chondrite meteorites with orbits on the asteroid-comet boundary, and the Chelyabinsk fall, which produced a damaging blast wave. While most meteoroids disrupt into fragments during atmospheric flight, the Carancas meteoroid remained nearly intact and caused a crater-forming explosion on the ground. | '''Abstract:''' Small asteroids intersecting Earth's orbit can deliver extraterrestrial rocks to the Earth, called meteorites. This process is accompanied by a luminous phenomena in the atmosphere, called bolides or fireballs. Observations of bolides provide pre-atmospheric orbits of meteorites, physical and chemical properties of small asteroids, and the flux (i.e. frequency of impacts) of bodies at the Earth in the centimeter to decameter size range. In this chapter we explain the processes occurring during the penetration of cosmic bodies through the atmosphere and review the methods of bolide observations. We compile available data on the fireballs associated with 22 instrumentally observed meteorite falls. Among them are the heterogeneous falls Almahata Sitta (2008 TC<sub>3</sub>) and [[Benešov]], which revolutionized our view on the structure and composition of small asteroids, the Příbram-Neuschwanstein orbital pair, carbonaceous chondrite meteorites with orbits on the asteroid-comet boundary, and the Chelyabinsk fall, which produced a damaging blast wave. While most meteoroids disrupt into fragments during atmospheric flight, the Carancas meteoroid remained nearly intact and caused a crater-forming explosion on the ground. |
Wersja z 20:24, 14 wrz 2017
Borovička Jiří, Spurný Pavel, Brown Peter, (2015), Small Near-Earth Asteroids as a Source of Meteorites, arXiv.org, arXiv:1502.03307, 2015.[1] Plik PDF (doi) (abstrakt).
Abstract: Small asteroids intersecting Earth's orbit can deliver extraterrestrial rocks to the Earth, called meteorites. This process is accompanied by a luminous phenomena in the atmosphere, called bolides or fireballs. Observations of bolides provide pre-atmospheric orbits of meteorites, physical and chemical properties of small asteroids, and the flux (i.e. frequency of impacts) of bodies at the Earth in the centimeter to decameter size range. In this chapter we explain the processes occurring during the penetration of cosmic bodies through the atmosphere and review the methods of bolide observations. We compile available data on the fireballs associated with 22 instrumentally observed meteorite falls. Among them are the heterogeneous falls Almahata Sitta (2008 TC3) and Benešov, which revolutionized our view on the structure and composition of small asteroids, the Příbram-Neuschwanstein orbital pair, carbonaceous chondrite meteorites with orbits on the asteroid-comet boundary, and the Chelyabinsk fall, which produced a damaging blast wave. While most meteoroids disrupt into fragments during atmospheric flight, the Carancas meteoroid remained nearly intact and caused a crater-forming explosion on the ground.