Abstract

The effects of iron (Fe) incorporation on the lattice thermal conductivity () of MgO are investigated under the Earth’s lower mantle pressure (P) and temperature (T) condition (P > ∼20 GPa, T > ∼2000 K) based on the density-functional theory combined with the anharmonic lattice dynamics theory. The of ferropericlase (FP) is determined combining the internally consistent LDA + U method and self-consistent approach to solve the phonon Boltzmann transport equation. The calculated are well fitted to the extended Slack model which is proposed in this study to represent in a wide volume and T range. Results demonstrate that the of MgO decreases strongly by Fe incorporation. This strong negative effect is found due to decreases in phonon group velocity and lifetime. Consequently, the of MgO at the core-mantle boundary condition (P∼ 136 GPa, T ∼ 4000 K) is substantially reduced from ∼40 to ∼10 W m−1 K−1 by the incorporation of Fe (12.5 mol%). The effect of Fe incorporation on the of MgO is found to be insensitive to P and T, and at high T, the of FP obeys a well-established T inverse relation unlike the experimental observations.

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