Scientific Reports (May 2024)

Exploring toroidal anvil profiles for larger sample volumes above 4 Mbar

  • Claire C. Zurkowski,
  • Jing Yang,
  • Francesca Miozzi,
  • Suzy Vitale,
  • Earl. F. O.’Bannon,
  • Zsolt Jenei,
  • Stella Chariton,
  • Vitali Prakapenka,
  • Yingwei Fei

DOI
https://doi.org/10.1038/s41598-024-61861-2
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 11

Abstract

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Abstract With the advent of toroidal and double-stage diamond anvil cells (DACs), pressures between 4 and 10 Mbar can be achieved under static compression, however, the ability to explore diverse sample assemblies is limited on these micron-scale anvils. Adapting the toroidal DAC to support larger sample volumes offers expanded capabilities in physics, chemistry, and planetary science: including, characterizing materials in soft pressure media to multi-megabar pressures, synthesizing novel phases, and probing planetary assemblages at the interior pressures and temperatures of super-Earths and sub-Neptunes. Here we have continued the exploration of larger toroidal DAC profiles by iteratively testing various torus and shoulder depths with central culet diameters in the 30–50 µm range. We present a 30 µm culet profile that reached a maximum pressure of 414(1) GPa based on a Pt scale. The 300 K equations of state fit to our P–V data collected on gold and rhenium are compatible with extrapolated hydrostatic equations of state within 1% up to 4 Mbar. This work validates the performance of these large-culet toroidal anvils to > 4 Mbar and provides a promising foundation to develop toroidal DACs for diverse sample loading and laser heating.