kw.\*:("Corps parent")
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COMPLETE FRAGMENTATION OF THE PARENT BODIES OF THEMIS, EOS AND KORONIS FAMILIESFUJIWARA A.1982; ICARUS; ISSN 0019-1035; USA; DA. 1982; VOL. 52; NO 3; PP. 434-443; BIBL. 2 P.Article
RECHERCHES DU DERNIER "CORPS-PARENT" DE LA METEORITE DE FARMINGTONGALIBINA IV; SIMONENKO AN; LEVIN B YU et al.1980; METEORITIKA; ISSN 0369-2507; SUN; DA. 1980; NO 39; PP. 114-120; BIBL. 4 REF.Article
Noble gases released by vacuum crushing of EETA 79001 glass = Gaz rares libérés par concassage sous vide du verre EETA 79001WIENS, R. C.Earth and planetary science letters. 1988, Vol 91, Num 1-2, pp 55-65, issn 0012-821XArticle
Fundamentally distinct outcomes of asteroid collisional evolution: Itokawa and ErosCHENG, A. F; BAMOUIN-JHA, O; HIRATA, N et al.Geophysical research letters. 2007, Vol 34, Num 9, issn 0094-8276, L09201.1-L09201.5Article
Impact process of boulders on the surface of asteroid 25143 Itokawa-fragments from collisional disruptionNAKAMURA, A. M; MICHIKAMI, T; HONDA, C et al.Earth, planets and space. 2008, Vol 60, Num 1, pp 7-12, issn 1343-8832, 6 p.Conference Paper
Discovery of a basaltic asteroid in the outer main beltLAZZARO, D; MICHTCHENKO, T; CARVANO, J. M et al.Science (Washington, D.C.). 2000, Vol 288, Num 5473, pp 2033-2035, issn 0036-8075Article
Geophysical evolution of the Themis family parent bodyCASTILLO-ROGEZ, Julie C; SCHMIDT, B. E.Geophysical research letters. 2010, Vol 37, Num 10, issn 0094-8276, L10202.1-L10202.5Article
Efficient delivery of meteorites to the Earth from a wide range of asteroid parent bodiesVOKROUHILCKY, D; FARINELLA, P.Nature (London). 2000, Vol 407, Num 6804, pp 606-608, issn 0028-0836Article
Multiple parent bodies of ordinary chondrites = Corps parents multiples des chondrites ordinairesYOMOGIDA, K; MATSUI, T.Earth and planetary science letters. 1984, Vol 68, Num 1, pp 34-42, issn 0012-821XArticle
Comparison of the chemistry of Eucrite Parent Body (EPB) and Shergotty Parent Body (SPB)DREIBUS, G; WANKE, H.International geological congress. 1992, p.639Conference Paper
Late Accretion on the Earliest Planetesimals Revealed by the Highly Siderophile ElementsDALE, Christopher W; BURTON, Kevin W; GREENWOOD, Richard C et al.Science (Washington, D.C.). 2012, Vol 336, Num 6077, pp 72-75, issn 0036-8075, 4 p.Article
Plasma conditions and the structure of the Jovian ringHORANYI, Mihály; JUHASZ, Antal.Journal of geophysical research. 2010, Vol 115, Num A9, issn 0148-0227, A09202.1-A09202.12Article
Measuring pickup ions to characterize the surfaces and exospheres of planetary bodies : Applications to the MoonHARTLE, Richard E; KILLEN, Rosemary.Geophysical research letters. 2006, Vol 33, Num 5, issn 0094-8276, L05201.1-L05201.5Article
Analysis of interplanetary dust particles by soft and hard X-ray microscopyFLYNN, G. J; KELLER, L. P; WIRICK, S et al.Journal de physique. IV. 2003, Vol 104, pp 367-372, issn 1155-4339, 6 p.Conference Paper
Possible in situ formation of meteoritic nanodiamonds in the early Solar SystemDAI, Z. R; BRADLEY, J. P; JOSWIAK, D. J et al.Nature (London). 2002, Vol 418, Num 6894, pp 157-159, issn 0028-0836Article
Magnesium isotopic composition of olivine from the Earth, Mars, Moon, and pallasite parent bodyNORMAN, M. D; YAXLEY, G. M; BENNETT, V. C et al.Geophysical research letters. 2006, Vol 33, Num 15, issn 0094-8276, L15202.1-L15202.5Article
Oxygen isotope variation in stony-iron meteoritesGREENWOOD, R. C; FRANCHI, I. A; JAMBON, A et al.Science (Washington, D.C.). 2006, Vol 313, Num 5794, pp 1763-1765, issn 0036-8075, 3 p.Article
Pore water convection within carbonaceous chondrite parent bodies : Temperature-dependent viscosity and flow structureKEKE ZHANG; XINHAO LIAO; SCHUBERT, Gerald et al.Physics of fluids (1994). 2005, Vol 17, Num 8, pp 086602.1-086602.12, issn 1070-6631Article
Extraterrestrial organic compounds in meteoritesBOTTA, Oliver; BADA, Jeffrey L.Surveys in geophysics. 2002, Vol 23, Num 5, pp 411-467, issn 0169-3298Article
Laboratory simulation of space weathering: ESR measurements of nanophase metallic iron in laser-irradiated materialsKURAHASHI, Erika; YAMANAKA, Chihiro; NAKAMURA, Keiko et al.Earth, planets and space. 2002, Vol 54, Num 12, pp e5-e7, issn 1343-8832Article
High-pressure iron-sulfur compound, Fe3S2, and melting relations in the Fe-FeS systemFEI, Y; BERTKA, C. M; FINGER, L. W et al.Science (Washington, D.C.). 1997, Vol 275, Num 5306, pp 1621-1623, issn 0036-8075Article
Metal-silicate fractionation in the surface dust layers of accreting planetesimals : Implications for the formation of ordinary chondrites and the nature of asteroid surfacesHUANG, S; AKRIDGE, G; SEARS, D. W. G et al.Journal of geophysical research. 1996, Vol 101, Num E12, pp 29373-29385, issn 0148-0227Article
Evidence for a Dynamo in the Main Group Pallasite Parent BodyTARDUNO, John A; COTTRELL, Rory D; NIMMO, Francis et al.Science (Washington, D.C.). 2012, Vol 338, Num 6109, pp 939-942, issn 0036-8075, 4 p.Article
Energetics of asteroid dynamos and the role of compositional convectionNIMMO, F.Geophysical research letters. 2009, Vol 36, Num 10, issn 0094-8276, L10201.1-L10201.6Article
High-pressure polymorphism of Fe2P and its implications for meteorites and Earth's coreDERA, Przemyslaw; LAVINA, Barbara; BORKOWSKI, Lauren A et al.Geophysical research letters. 2008, Vol 35, Num 10, issn 0094-8276, L10301.1-L10301.6Article