Metal-silicate Partitioning at High Pressure and Temperature: Experimental Methods and a Protocol to Suppress Highly Siderophile Element Inclusions

Abstract: Estimates of the primitive upper mantle (PUM) composition reveal a depletion in many of the siderophile (iron-loving) elements, thought to result from their extraction to the core during terrestrial accretion. Experiments to investigate the partitioning of these elements between metal and silicate melts suggest that the PUM composition is best matched if metal-silicate equilibrium occurred at high pressures and temperatures, in a deep magma ocean environment. The behavior of the most highly siderophile element… Show more

“…The maximum pressure achievable by a particular multi-anvil cell assembly is inversely proportional to the maximum sample size within that assembly. For an in-depth explanation and visualization of pistoncylinder and multi-anvil experimental setups, the interested reader is referred to Bennett et al (2015).…”

Equilibrium Fractionation of Non-traditional Stable Isotopes: an Experimental Perspective

“…The maximum pressure achievable by a particular multi-anvil cell assembly is inversely proportional to the maximum sample size within that assembly. For an in-depth explanation and visualization of pistoncylinder and multi-anvil experimental setups, the interested reader is referred to Bennett et al (2015).…”

Equilibrium Fractionation of Non-traditional Stable Isotopes: an Experimental Perspective