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Article Dans Une Revue Review of Scientific Instruments Année : 2012

An in situ approach to study trace element partitioning in the laser heated diamond anvil cell.

Résumé

Data on partitioning behavior of elements between different phases at in situ conditions are crucial for the understanding of element mobility especially for geochemical studies. Here, we present results of in situ partitioning of trace elements (Zr, Pd, and Ru) between silicate and iron melts, up to 50 GPa and 4200 K, using a modified laser heated diamond anvil cell (DAC). This new experimental set up allows simultaneous collection of x-ray fluorescence (XRF) and x-ray diffraction (XRD) data as a function of time using the high pressure beamline ID27 (ESRF, France). The technique enables the simultaneous detection of sample melting based to the appearance of diffuse scattering in the XRD pattern, characteristic of the structure factor of liquids, and measurements of elemental partitioning of the sample using XRF, before, during and after laser heating in the DAC. We were able to detect elements concentrations as low as a few ppm level (2-5 ppm) on standard solutions. In situ measurements are complimented by mapping of the chemical partitions of the trace elements after laser heating on the quenched samples to constrain the partitioning data. Our first results indicate a strong partitioning of Pd and Ru into the metallic phase, while Zr remains clearly incompatible with iron. This novel approach extends the pressure and temperature range of partitioning experiments derived from quenched samples from the large volume presses and could bring new insight to the early history of Earth.

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Pétrographie

Dates et versions

hal-00800001 , version 1 (13-03-2013)

Identifiants

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S. Petitgirard, M. Borchert, Denis Andrault, K. Appel, M. Mezouar, et al.. An in situ approach to study trace element partitioning in the laser heated diamond anvil cell.. Review of Scientific Instruments, 2012, 83, pp.013904. ⟨10.1063/1.3680573⟩. ⟨hal-00800001⟩
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