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Effects of hydrostaticity on the structural stability of carbonates at lower mantle pressures: the case study of dolomite

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Authors

Efthimiopoulos, Ilias
Germer, Marisa
Jahn, Sandro
Harms, Martin
Reichmann, Hans Josef
Speziale, Sergio
Schade, Ulrich
Sieber, Melanie Jutta
Koch-Müller, Monika

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Taylor & Francis

Abstract

We have conducted high pressure far-infrared absorbance and Raman spectroscopic investigations on a natural iron-free dolomite sample up to 40 GPa. Comparison between the present observations and literature results unraveled the effect of hydrostatic conditions on the high pressure dolomite polymorph adopted close to 40 GPa, i.e. the triclinic Dol-IIIc modification. In particular, non-hydrostatic conditions impose structural disorder at these pressures, whereas hydrostatic conditions allow the detection of an ordered Dol-IIIc vibrational response. Hence, hydrostatic conditions appear to be a key ingredient for modeling carbon subduction at lower mantle conditions. Our complementary first-principles calculations verified the far-infrared vibrational response of the ambient- and high pressure dolomite phases.

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High Pressure Research

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2037-12-31