Data di Pubblicazione:
2012
Citazione:
High pressure polymorphs of carbonates and their possible occurrence in the inner Earth / M. Merlini, W.A. Crichton, M. Hanfland, H. Mueller, M. Gemmi, I. Kupenko, L. Dubrovinsky. ((Intervento presentato al 1. convegno European Mineralogical Conference tenutosi a Frankfurt nel 2012.
Abstract:
Calcite, CaCO3, undergoes several high pressure phase transitions, known since the pioneering works of Bridgman(1939). We report the crystal structure determination of the CaCO3-III and CaCO3
-VI high-pressure polymorphs obtained by single-crystal synchrotron X-ray micro-diffraction, recently optimized to afford the possibility of collecting single-crystal data suitable for structure determinations, in-situ
at non-ambient conditions, even after multiphase transitions with first-order character. CaCO3-III and CaCO3-IV are both triclinic, and are characterised by
the presence of non-coplanar CO3 groups. The density of CaCO3-III is lower than aragonite, in agreement with
the currently accepted view of aragonite as the thermodynamically Ca-carbonate stable phase at these pressures. The density of the CaCO3
-VI structure, on the contrary, is higher than aragonite. For this reason it could be supposed that a region may exist where this polymorph replaces aragonite in the Earth’s intermediate mantle. This polymorph could also clarify the old observations of Vizgirda and Ahrens (1982) and Tyburczy and Ahrens (1986) of phase transitions detected with shock wave experiments both on calcite and aragonite starting material at these pressures. The lower coordination number for Ca site [7+2] instead of [9] in aragonite suggests that these structures could be easily adopted by an extended solid-solution range from calcite towards the dolomite [CaMg(CO3)2] -ankerite [CaFe(CO3)2] compositional join. Similar structures have been in fact also observed also in Fe-dolomite compositions, but shifted at higher pressures. The transitions from calcite to CaCO3-III and CaCO3-VI are perfectly reversible and after pressure release we always observe the calcite structure, with the sample recovered as a single-crystal. Indeed, it is highly unlikely that these structures can be observed in samples recovered from high-pressure environments.
Tipologia IRIS:
14 - Intervento a convegno non pubblicato
Elenco autori:
M. Merlini, W.A. Crichton, M. Hanfland, H. Mueller, M. Gemmi, I. Kupenko, L. Dubrovinsky
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