Compression, thermal expansion, structure, and instability of CaIrO3, the structure model of MgSiO3 post-perovskite

C. David Martin; Karena W. Chapman; Peter J. Chupas; Vitali Prakapenka; Peter L. Lee; Sarvjit D. Shastri; John B. Parise

doi:10.2138/am.2007.2473

Published by De Gruyter April 1, 2015

Compression, thermal expansion, structure, and instability of CaIrO₃, the structure model of MgSiO₃ post-perovskite

C. David Martin , Karena W. Chapman , Peter J. Chupas , Vitali Prakapenka , Peter L. Lee , Sarvjit D. Shastri and John B. Parise

From the journal American Mineralogist

https://doi.org/10.2138/am.2007.2473

Showing a limited preview of this publication:

Abstract

Analysis of pressure-temperature dependent monochromatic X-ray powder diffraction data yield the bulk modulus [K_T = 180.2(28) GPa] and thermal expansion coeficients [α₀ = 2.841(34) × 10^-5 K^-1; α₁ = 3.37(48) × 10^-9 K^-2] of CaIrO₃, the structure model for post-perovskite MgSiO₃. CaIrO₃ is orthorhombic (Cmcm, space group 63, Z = 4) with best-fit unit-cell parameters, a = 3.14147(5) Å, b = 9.87515(19), c = 7.29711(11), and V = 226.3754(78) Å³ at 1 bar and 300 K. The c-axis of CaIrO₃ has a small compressibility and a large thermal expansion when compared to the other principal axes. Rietveld structure refinement reveals changes in CaIrO₃ as a function of temperature in terms of IrO₆ octahedra distortion. Dissociation of CaIrO₃ at high temperature has possible implications for the post-perovskite MgSiO₃ structure, Earth.s lower mantle, and D’’ layer.

Keywords: Post-perovskite; CaIrO3; pressure; temperature; structure; X-rays; Rietveld refinement; D’’ layer

Received: 2006-10-6

Accepted: 2007-1-31

Published Online: 2015-4-1

Published in Print: 2007-7-1

Compression, thermal expansion, structure, and instability of CaIrO₃, the structure model of MgSiO₃ post-perovskite

Abstract

Journal and Issue

Articles in the same Issue