P. Jenniskens, Almahata Sitta (=asteroid 2008 TC 3 ) and the search for the ureilite parent body, Meteorit. Planet. Sci, vol.45, pp.1590-1617, 2010.

A. Bischoff, M. Horstmann, A. Pack, M. Laubenstein, and S. Haberer, TC 3 -Almahata Sitta: a spectacular breccia containing many different ureilitic and chondritic lithologies, Meteorit. Planet. Sci, vol.45, pp.1638-1656, 2008.

C. A. Goodrich, Origin and history of ureilitic material in the solar system: the view from asteroid 2008 TC 3 and the Almahata Sitta meteorite, Meteorit. Planet. Sci, vol.50, pp.782-809, 2015.

M. E. Lipschutz, Origin of diamonds in the ureilites, Science, vol.143, pp.1431-1434, 1964.

K. Fukunaga, J. Matsuda, K. Nagao, M. Miyamoto, and K. Ito, Noble-gas enrichment in vapour-growth diamonds and the origin of diamonds in ureilites, Nature, vol.328, pp.141-143, 1987.

H. C. Urey, Diamonds, meteorites, and the origin of the solar system, Astrophys. J, vol.124, pp.623-637, 1956.

M. Miyahara, Unique large diamonds in a ureilite from Almahata Sitta 2008 TC 3 asteroid, Geochim. Cosmochim. Acta, vol.163, pp.14-26, 2015.

L. Guillou, C. Rouzaud, J. N. Remusat, L. Jambon, A. Bourot-denise et al., Structures, origin and evolution of various carbon phases in the ureilite Northwest Africa 4742 compared with laboratory-shocked graphite, Geochim. Cosmochim. Acta, vol.74, pp.4167-4185, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00687779

H. Ohfuji, Natural occurrence of pure nano-polycrystalline diamond from impact crater, Sci. Rep, vol.5, p.14702, 2015.

P. Gillet and A. El-goresy, Shock events in the solar system: the message from minerals in terrestrial planets and asteroids, Annu. Rev. Earth Planet. Sci, vol.41, pp.257-285, 2013.

J. Raty and G. Galli, Ultradispersity of diamond at the nanoscale, Nat. Mater, vol.2, pp.792-795, 2003.

H. Chacham and L. Kleinman, Instabilities in diamond under high shear stress, Phys. Rev. Lett, vol.85, pp.4904-4907, 2000.

H. He, T. Sekine, and T. Kobayashi, Direct transformation of cubic diamond to hexagonal diamond, Appl. Phys. Lett, vol.81, pp.610-612, 2002.

J. W. Harris and E. R. Vance, Induced graphitisation around crystalline inclusions in diamond, Contrib. Mineral. Petrol, vol.35, pp.227-234, 1972.

M. J. Walter, Deep mantle cycling of oceanic crust: evidence from diamonds and their mineral inclusions, Science, vol.334, pp.54-57, 2011.
URL : https://hal.archives-ouvertes.fr/hal-01495121

Y. Fei, J. Li, C. M. Bertka, and C. T. Prewitt, Structure type and bulk modulus of Fe 3 S, a new iron-sulfur compound, Am. Mineral, vol.85, pp.1830-1833, 2000.

A. J. Stewart and M. W. Schmidt, Sulfur and phosphorus in the Earth's core: the Fe-P-S system at 23 GPa, Geophys. Res. Lett, vol.34, p.13201, 2007.

T. Gu, Y. Fei, X. Wu, and S. Qin, Phase stabilities and spin transitions of Fe3(S1 ?xPx) at high pressure and its implications in meteorites, Am. Mineral, vol.101, pp.205-210, 2016.

S. Urakawa, R. Matsubara, T. Katsura, T. Watanabe, and T. Kikegawa, Stability and bulk modulus of Ni 3 S, a new nickel sulfur compound, and the melting relations of the system Ni-NiS up to 10 GPa, Am. Mineral, vol.96, pp.558-565, 2011.

A. N. Krot, The Sychevka IIIAB iron meteorite: a new find from Russia, Meteoritics, vol.27, pp.465-466, 1992.

J. T. Wasson, D. E. Lange, C. A. Francis, and F. Ulff-møller, Massive chromite in the Brenham pallasite and the fractionation of Cr during the crystallization of asteroidal cores, Geochim. Cosmochim. Acta, vol.63, pp.1219-1232, 1999.

K. T. Fehr and A. Carion, Unusual large chromite crystals in the Saint Aubin iron meteorite, Meteorit. Planet. Sci, vol.39, pp.139-141, 2004.

F. Ulff-møller, Solubility of chromium and oxygen in metallic liquids and the co-crystallization of chromite and metal in iron meteorite parent bodies, Lunar and Planetary Science ConferenceXXIX, 1969.

E. J. Olsen, The phosphates of IIIAB iron meteorites, Meteorit. Planet. Sci, vol.34, pp.285-300, 1999.

F. Langenhorst, G. I. Shafranovsky, V. L. Masaitis, and M. Koivisto, Discovery of impact diamonds in a Fennoscandian crater and evidence for their genesis by solid-state transformation, Geology, vol.27, pp.747-750, 1999.

A. E. Goresy, In situ discovery of shock-induced graphite-diamond phase transition in gneisses from the Ries Crater, Am. Mineral, vol.86, pp.611-621, 2001.

P. H. Warren, F. Ulff-møller, H. Huber, and G. W. Kallemeyn, Siderophile geochemistry of ureilites: a record of early stages of planetesimal core formation, Geochim. Cosmochim. Acta, vol.70, pp.2104-2126, 2006.

J. A. Barrat, Early stages of core segregation recorded by Fe isotopes in an asteroidal mantle, Earth Planet. Sci. Lett, vol.419, pp.93-100, 2015.
URL : https://hal.archives-ouvertes.fr/insu-01133382

B. Ryzhenko and G. C. Kennedy, The effect of pressure on the eutectic in the system Fe-FeS, Am. J. Sci, vol.273, pp.803-810, 1973.

R. C. Greenwood, I. A. Franchi, A. Jambon, and P. C. Buchanan, Widespread magma oceans on asteroidal bodies in the early Solar System, Nature, vol.435, pp.916-918, 2005.

J. Barrat, Partial melting of a C-rich asteroid: lithophile trace elements in ureilites, Geochim. Cosmochim. Acta, vol.194, pp.163-178, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01365231

C. A. Goodrich, Petrology of chromite in ureilites: deconvolution of primary oxidation states and secondary reduction processes, Geochim. Cosmochim. Acta, vol.135, pp.126-169, 2014.

O. T. Lord, M. J. Walter, R. Dasgupta, D. Walker, and S. M. Clark, Melting in the Fe-C system to 70 GPa, Earth Planet. Sci. Lett, vol.284, pp.157-167, 2009.

A. Corgne, B. J. Wood, and Y. Fei, C-and S-rich molten alloy immiscibility and core formation of planetesimals, Geochim. Cosmochim. Acta, vol.72, pp.2409-2416, 2008.

R. Dasgupta, A. Buono, G. Whelan, and D. Walker, High-pressure melting relations in Fe-C-S systems: implications for formation, evolution, and structure of metallic cores in planetary bodies, Geochim. Cosmochim. Acta, vol.73, pp.6678-6691, 2009.

L. Deng, Y. Fei, X. Liu, Z. Gong, and A. Shahar, Effect of carbon, sulfur and silicon on iron melting at high pressure: implications for composition and evolution of the planetary terrestrial cores, Geochim. Cosmochim. Acta, vol.114, pp.220-233, 2013.

E. M. Smith, Large gem diamonds from metallic liquid in Earth's deep mantle, Science, vol.354, pp.1403-1405, 2016.

P. H. Warren, Parent body depth-pressure-temperature relationships and the style of the ureilite anatexis, Meteorit. Planet. Sci, vol.47, pp.209-227, 2012.

J. Barrat, P. Sansjofre, A. Yamaguchi, R. C. Greenwood, and P. Gillet, Carbon isotopic variation in ureilites: evidence for an early, volatile-rich Inner Solar System, Earth. Planet. Sci. Lett, vol.478, pp.143-149, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01919244

A. Morbidelli, J. I. Lunine, D. P. O'brien, S. N. Raymond, and K. J. Walsh, Building terrestrial planets, Annu. Rev. Earth Planet. Sci, vol.40, pp.251-275, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00681650

G. W. Wetherill and G. R. Stewart, Accumulation of a swarm of small planetesimals, Icarus, vol.77, pp.330-357, 1989.

E. Kokubo and S. Ida, Oligarchic growth of protoplanets, Icarus, vol.131, pp.171-178, 1998.

A. Morbidelli, M. Lambrechts, S. Jacobson, and B. Bitsch, The great dichotomy of the solar system: small terrestrial embryos and massive giant planet cores, Icarus, vol.258, pp.418-429, 2015.

M. ?uk and S. T. Stewart, Making the moon from a fast-spinning earth: a giant impact followed by resonant despinning, Science, vol.338, pp.1047-1052, 2012.

R. M. Canup and E. Asphaug, Origin of the Moon in a giant impact near the end of the Earth's formation, Nature, vol.412, pp.708-712, 2001.

J. E. Chambers and G. W. Wetherill, Planets in the asteroid belt, Meteorit. Planet. Sci, vol.36, pp.381-399, 2001.

K. J. Walsh, A. Morbidelli, S. N. Raymond, D. P. O'brien, and A. M. Mandell, A low mass for Mars from Jupiter's early gas-driven migration, Nature, vol.475, pp.206-209, 2011.

E. Asphaug, C. B. Agnor, and Q. Williams, Hit-and-run planetary collisions, Nature, vol.439, pp.155-160, 2006.

C. Hébert, P. Schattschneider, H. Franco, and B. Jouffrey, ELNES at magic angle conditions, Ultramicroscopy, vol.106, pp.1139-1143, 2006.

P. Schattschneider, C. Hébert, H. Franco, and B. Jouffrey, Anisotropic relativistic cross sections for inelastic electron scattering, and the magic angle, Phys. Rev. B, vol.72, p.45142, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00014441