%AHao, Ming%AZhang, Jin%APierotti, Caroline%ARen, Zhiyuan%AZhang, D.%BJournal Name: Journal of Geophysical Research: Solid Earth %D2019%I %JJournal Name: Journal of Geophysical Research: Solid Earth %K %MOSTI ID: 10086596 %PMedium: X %THigh-pressure single-crystal elasticity and thermal equation of state of omphacite and their implications for the seismic properties of eclogite in the Earth's interior %XOmphacite is a major mineral phase of eclogite, which provides the main driving force for the slab subduction into the Earth's interior. We have measured the single‐crystal elastic moduli of omphacite at high pressures for the first time up to 18 GPa at ambient temperature using Brillouin spectroscopy. A least‐squares fit of the velocity‐pressure data to the third‐order finite strain equation of state yields KS0'=4.5(3), G0'=1.6(1) with ρ0=3.34(1) g/cm3, KS0=123(3) GPa, and G0=74(2) GPa. In addition, the synchrotron single‐crystal X‐ray diffraction data have been collected up to 18 GPa and 700 K. The fitting to Holland‐Powell thermal‐pressure equation of state yields KT0'=4.6(5) and α0=2.7(8) ×10‐5 K‐1. Based on the obtained thermoelastic parameters of omphacite, the anisotropic seismic velocities of eclogite are modeled and compared with pyrolite between 200 to 500 km. The largest contrast between the eclogite and pyrolite in terms of seismic properties is observed between ~310 to 410 km. %0Journal Article