Elasticity of CaSiO3 perovskite at high pressure and high temperature

Details Elasticity of CaSiO3 perovskite at high pressure and high temperature Elasticity of CaSiO3 perovskite at high pressure and high temperature

May 2006

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2006pepi..155..249l&link_type=abstract

Physics of the Earth and Planetary Interiors, Volume 155, Issue 3-4, p. 249-259.

Physics

19

Scientific paper

Ab initio molecular dynamic (AIMD) simulations were performed to calculate the equation of state (EOS) of CaSiO3 perovskite at mantle pressure temperature conditions. At temperatures above 2000 K, even though the hydrostatic crystal structure is metrically tetragonal in the pressure range of 13 123 GPa, the symmetry of the elastic moduli is consistent with cubic symmetry. Our results show that elastic constants and velocities are independent of temperature at constant volume. Referenced to room pressure and 2000 K, we find: Grűneisen parameter is γ(V) = γ0(V/V0)q with γ0 = 1.53 and q = 1.02(5), and the Anderson Grűneisen parameter is given by (α/α)=V in which α0 = 2.89 × 10-5 K-1 and δT = 4.09(5). Using the third order Birch Murnaghan equation of state to fit our data, we have for ambient P and T, K0 = 236.6(8) GPa, K0=3.99(3), and V0 = 729.0(6) Å3. Calculated acoustic velocities show the following P T dependence: (∂ln VP/∂V)T or P = -1.9 × 10-3; (∂ln VS/∂V)T or P = -1.5 × 10-3; (∂ln VΦ/∂V)T or P = -2.4 × 10-3; (∂ln VS/∂ln VP)T or P = 0.79; (∂ln VS/∂ln VΦ)T or P = 0.63, indicating that the variations in bulk modulus overpower the variations in shear modulus. The bulk modulus of CaSiO3 perovskite is up to 10% lower than MgSiO3 perovskite under lower mantle conditions. The difference diminishes with pressure and temperature. The shear modulus of CaSiO3 perovskite is almost 25% lower compared with MgSiO3 perovskite for shallow lower mantle pressures and temperatures and about 3% lower at the base of the lower mantle. The difference in density of these two perovskite is about 3 4% for all conditions. Both the density and bulk modulus differ from PREM by less than 2% throughout the lower mantle. The shear modulus is ˜10% lower at shallow depths grading to ˜5% by the core-mantle boundary. Thus, the seismic velocity of CaSiO3 perovskite will be lower (0 6%) than PREM.

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