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High Pressure Research
An International Journal
Volume 30, 2010 - Issue 2: INTERNATIONAL UNION OF CRYSTALLOGRAPHY (IUCr) MEETING ON ‘ADVANCED CRYSTALLOGRAPHY AT HIGH PRESSURE’, HARBIN (CHINA), 19–22 JULY 2009
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Original Articles

First-principles study on mechanical and magnetic properties of the perovskite and post-perovskite polymorphs of pure end-member FeSiO3 at the core–mantle boundary

Yumei Yan National Laboratory of Superhard Materials, Jilin University, Changchun, 130012, People's Republic of China
,
Yinwei Li National Laboratory of Superhard Materials, Jilin University, Changchun, 130012, People's Republic of China
,
Zhong Fang Institute of Physics, Chinese Academy of Science, Beijing, 100080, People's Republic of ChinaCorrespondence[email protected]
,
Guangtao Wang Institute of Physics, Chinese Academy of Science, Beijing, 100080, People's Republic of China
&
Yanming Ma National Laboratory of Superhard Materials, Jilin University, Changchun, 130012, People's Republic of ChinaCorrespondence[email protected]
Pages 292-300 | Received 18 Jan 2010, Accepted 10 Mar 2010, Published online: 02 Jun 2010
 
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Abstract

We obtained wave velocities of FeSiO3 within perovskite and post-perovskite phases at 130 GPa by first-principles calculations in order to understand the abrupt reduction in seismic velocity at the core–mantle boundary. Our results proved that high iron density significantly reduces the seismic velocity. The elastic anisotropy, electronic structure and chemical bonding of FeSiO3 in perovskite and post-perovskite phases are extensively explored to illustrate the variation of mechanical and magnetic properties with pressure. Magnetic collapse was predicted in the perovskite phase, which is attributed to the pressure-induced broadening of 3d valence bands of iron.

Acknowledgements

We are thankful for the financial support from the National Natural Science Foundation of China (NSFC) under grant no. 10874054, the NSFC awarded Research Fellowship for International Young Scientists under grant no. 10910263, the research fund for Excellent Young Scientists in Jilin University (no. 200905003), the China 973 Program under grant no. 2005CB724400, and the 2007 Cheung Kong Scholars Program of China.

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