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Matsuoka, T.
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document
Ultrafast X-ray Diffraction Measurements Of shock-Compressed Fe and Fe-Si Alloys
Abstract
The extreme pressures achievable with dynamic compression holds great promise for studying planetary interiors. Phase stability of Fe-Si alloys, which are complex to address, is particularly relevant to understanding telluric planetary cores due to the widely varying properties produced by small changes in Si concentration. Here we report the study of phase stability of pure iron and Fe-Si alloys by x-ray diffraction measurements carried out on shocked samples using an x-ray free electron laser (XFEL). We have used the extremely bright, 10 fs x-ray pulse generated at the Spring-8 Angstrom Compact Free Electron Laser (SACLA) facility in Japan to determine the crystal structure during the initial shock in Fe, Fe-Si8.5wt%, and Fe-Si16wt% as well as on release into sapphire in Fe-Si16wt%. Our setup combined with the brilliance of the XFEL allows us to observe the rapid onset of high-pressure solid-solid phase transformation in Fe and Fe-Si8.5wt%; we observe no such evidence in Fe-Si16wt% up to 110 GPa on the nanosecond timescale. Additional Density Functional Theory calculations have been performed to provide structural predictions calculations and explore the phase stability of Fe-Si alloys. Taken together our experiments and calculations support recent dynamic compression measurements and shed light on conflicting static compression results. Our work highlights the need to properly consider the differing intrinsic timescales of the static and dynamic experiments when comparing results, and the complementarity of the techniques in assessing phase diagram and transition mechanisms....