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Literature DB >> 16090187

High-pressure melting of MgSiO3.

A B Belonoshko¹, N V Skorodumova, A Rosengren, R Ahuja, B Johansson, L Burakovsky, D L Preston.

Abstract

The melting curve of MgSiO(3) perovskite has been determined by means of ab initio molecular dynamics complemented by effective pair potentials, and a new phenomenological model of melting. Using first principles ground state calculations, we find that the MgSiO(3) perovskite phase transforms into post perovskite at pressures above 100 GPa, in agreement with recent theoretical and experimental studies. We find that the melting curve of MgSiO(3), being very steep at pressures below 60 GPa, rapidly flattens on increasing pressure. The experimental controversy on the melting of the MgSiO(3) perovskite at high pressures is resolved, confirming the data by Zerr and Boehler.

Entities: Chemical

Year: 2005 PMID： 16090187 DOI： 10.1103/PhysRevLett.94.195701

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

8 in total

High-pressure melting of MgSiO3.

1. Post-perovskite Transition in Anti-structure.

2. Lattice Thermal Conductivity of MgSiO₃ Perovskite from First Principles.

3. Melting temperatures of MgO under high pressure by micro-texture analysis.

4. Melting and density of MgSiO₃ determined by shock compression of bridgmanite to 1254GPa.

5. Superconductivity in anti-post-Perovskite vanadium compounds.

6. Experimental and theoretical thermal equations of state of MgSiO3 post-perovskite at multi-megabar pressures.

7. Modeling the melting of multicomponent systems: the case of MgSiO3 perovskite under lower mantle conditions.

8. Electrical conductivity and magnetic dynamos in magma oceans of Super-Earths.