Add to ORKGWe report the results of CaSiO3 perovskite-melt partitioning experiments conducted at conditions relevant to the uppermost lower mantle. Partition coefficients, measured by LA-ICPMS, show that CaSiO3 perovskite has a strong affinity for REE, Y, Th and U, making CaSiO3 the most likely host for these elements in the lower mantle. Comparison with the low-pressure analogue CaTiO3 shows that large ions partition similarly into the Ca-sites of the two perovskites. Thus CaTiO3 may be used as a model to investigate the factors controlling the partitioning of many trace ions into CaSiO3. Combined fractionation of MgSiO3 and CaSiO3 perovskites during an early magma ocean has been suggested as a means of enriching the lower mantle in silica. Our resul...
Laboratory experiments and seismology data have created a clear theoretical picture of the most abun...
International audienceSince the phase diagram for (Fe,Al)-bearing MgSiO3 compositions at the P-T con...
Cubic CaSiO3 perovskite is a major phase in subducted oceanic crust, where it forms at a depth of ab...
We report the results of CaSiO3 perovskite-melt partitioning experiments conducted at conditions rel...
We have determined the partitioning of a wide range of trace elements between silicate melts and CaS...
We have determined the partition coefficients of a large number of trace elements between CaTiO3 per...
High-pressure melting experiments were performed at ∼26 GPa and ∼2,200-2,400° C on synthetic peridot...
The occurrence of CO2-rich lavas (carbonatites, kimberlites) and carbonate-rich xenoliths provide ev...
Perovskite is a common groundmass phase in many mantle-derived undersaturated rocks (e.g., kimberlit...
Calcium silicate perovskite, CaSiO3, is arguably the most geochemically important phase in the lower...
In this study, we investigated iron-magnesium exchange and transition-metal trace-element partitioni...
This experimental study examines the mineral/melt partitioning of incompatible trace elements among ...
Using density functional simulations within the generalized gradient approximation and projector-aug...
Cubic CaSiO$_3$ perovskite is a major phase in subducted oceanic crust, where it forms at a depth of...
Laboratory experiments and seismology data have created a clear theoretical picture of the most abun...
International audienceSince the phase diagram for (Fe,Al)-bearing MgSiO3 compositions at the P-T con...
Cubic CaSiO3 perovskite is a major phase in subducted oceanic crust, where it forms at a depth of ab...
We report the results of CaSiO3 perovskite-melt partitioning experiments conducted at conditions rel...
We have determined the partitioning of a wide range of trace elements between silicate melts and CaS...
We have determined the partition coefficients of a large number of trace elements between CaTiO3 per...
High-pressure melting experiments were performed at ∼26 GPa and ∼2,200-2,400° C on synthetic peridot...
The occurrence of CO2-rich lavas (carbonatites, kimberlites) and carbonate-rich xenoliths provide ev...
Perovskite is a common groundmass phase in many mantle-derived undersaturated rocks (e.g., kimberlit...
Calcium silicate perovskite, CaSiO3, is arguably the most geochemically important phase in the lower...
In this study, we investigated iron-magnesium exchange and transition-metal trace-element partitioni...
This experimental study examines the mineral/melt partitioning of incompatible trace elements among ...
Using density functional simulations within the generalized gradient approximation and projector-aug...
Cubic CaSiO$_3$ perovskite is a major phase in subducted oceanic crust, where it forms at a depth of...
Laboratory experiments and seismology data have created a clear theoretical picture of the most abun...
International audienceSince the phase diagram for (Fe,Al)-bearing MgSiO3 compositions at the P-T con...
Cubic CaSiO3 perovskite is a major phase in subducted oceanic crust, where it forms at a depth of ab...