Author:
Denoeud Adrien,Ozaki Norimasa,Benuzzi-Mounaix Alessandra,Uranishi Hiroyuki,Kondo Yoshihiko,Kodama Ryosuke,Brambrink Erik,Ravasio Alessandra,Bocoum Maimouna,Boudenne Jean-Michel,Harmand Marion,Guyot François,Mazevet Stephane,Riley David,Makita Mikako,Sano Takayoshi,Sakawa Youichi,Inubushi Yuichi,Gregori Gianluca,Koenig Michel,Morard Guillaume
Abstract
Investigation of the iron phase diagram under high pressure and temperature is crucial for the determination of the composition of the cores of rocky planets and for better understanding the generation of planetary magnetic fields. Here we present X-ray diffraction results from laser-driven shock-compressed single-crystal and polycrystalline iron, indicating the presence of solid hexagonal close-packed iron up to pressure of at least 170 GPa along the principal Hugoniot, corresponding to a temperature of 4,150 K. This is confirmed by the agreement between the pressure obtained from the measurement of the iron volume in the sample and the inferred shock strength from velocimetry deductions. Results presented in this study are of the first importance regarding pure Fe phase diagram probed under dynamic compression and can be applied to study conditions that are relevant to Earth and super-Earth cores.
Funder
Japan Society for the Promotion of Science
Agence Nationale de la Recherche
Publisher
Proceedings of the National Academy of Sciences
Cited by
32 articles.
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